Prof Steffen Lehmann AA Dipl Dr-Ing RIBA AIA AoU BDA
5th LCD-Workshop 11 April 2018 (40 mins)
Contents PART I
Introducing the Cluster for Sustainable Cities
PART II
Strategies for Low-carbon Network-oriented Development
PART III
Urban Design Criteria for Low-Carbon Areas at Transport Hubs
Integrated Sustainable Neighbourhoods ndashTowards Low Carbon Cities
Health and Well-beingHappinessLonelinessIsolation
Liveability
ldquoWhat is the city but the peoplerdquo-- William Shakespeare
ldquocivilizationrdquo
About 195 000 years ago we started in the Afar region of Ethiopia
ldquocivilizationrdquo
If the development of mankind is compressed down to two years the industrial age is about 2 minutes
195 000 years
Introducing the Cluster for Sustainable Cities
PART I
The Cluster for Sustainable Cities
is an interdisciplinary Cluster (research group) that brings together 40 key researchers across a range of disciplines with an interest in urban resilience and sustainable cities development
bull delivering research with real impact in sustainable amp resilient cities
Rethinking Architecture for the Age of Global Warming
The Cluster for Sustainable Cities
wwwcity-futuresorguk
University of Portsmouth
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Health and Well-beingHappinessLonelinessIsolation
Liveability
ldquoWhat is the city but the peoplerdquo-- William Shakespeare
ldquocivilizationrdquo
About 195 000 years ago we started in the Afar region of Ethiopia
ldquocivilizationrdquo
If the development of mankind is compressed down to two years the industrial age is about 2 minutes
195 000 years
Introducing the Cluster for Sustainable Cities
PART I
The Cluster for Sustainable Cities
is an interdisciplinary Cluster (research group) that brings together 40 key researchers across a range of disciplines with an interest in urban resilience and sustainable cities development
bull delivering research with real impact in sustainable amp resilient cities
Rethinking Architecture for the Age of Global Warming
The Cluster for Sustainable Cities
wwwcity-futuresorguk
University of Portsmouth
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
ldquocivilizationrdquo
About 195 000 years ago we started in the Afar region of Ethiopia
ldquocivilizationrdquo
If the development of mankind is compressed down to two years the industrial age is about 2 minutes
195 000 years
Introducing the Cluster for Sustainable Cities
PART I
The Cluster for Sustainable Cities
is an interdisciplinary Cluster (research group) that brings together 40 key researchers across a range of disciplines with an interest in urban resilience and sustainable cities development
bull delivering research with real impact in sustainable amp resilient cities
Rethinking Architecture for the Age of Global Warming
The Cluster for Sustainable Cities
wwwcity-futuresorguk
University of Portsmouth
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
About 195 000 years ago we started in the Afar region of Ethiopia
ldquocivilizationrdquo
If the development of mankind is compressed down to two years the industrial age is about 2 minutes
195 000 years
Introducing the Cluster for Sustainable Cities
PART I
The Cluster for Sustainable Cities
is an interdisciplinary Cluster (research group) that brings together 40 key researchers across a range of disciplines with an interest in urban resilience and sustainable cities development
bull delivering research with real impact in sustainable amp resilient cities
Rethinking Architecture for the Age of Global Warming
The Cluster for Sustainable Cities
wwwcity-futuresorguk
University of Portsmouth
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Introducing the Cluster for Sustainable Cities
PART I
The Cluster for Sustainable Cities
is an interdisciplinary Cluster (research group) that brings together 40 key researchers across a range of disciplines with an interest in urban resilience and sustainable cities development
bull delivering research with real impact in sustainable amp resilient cities
Rethinking Architecture for the Age of Global Warming
The Cluster for Sustainable Cities
wwwcity-futuresorguk
University of Portsmouth
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
The Cluster for Sustainable Cities
is an interdisciplinary Cluster (research group) that brings together 40 key researchers across a range of disciplines with an interest in urban resilience and sustainable cities development
bull delivering research with real impact in sustainable amp resilient cities
Rethinking Architecture for the Age of Global Warming
The Cluster for Sustainable Cities
wwwcity-futuresorguk
University of Portsmouth
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
2012 2013 2015 2017 2019 forthcoming
2010
2011
2006-2014US-journalEditor-in-Chief
2016
2018
Publishing my Research
Books and articles
18 books and over 300+ papers and articles publishedEditor for the Book Series on Sustainable Design for Routledge
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Isle of WightThe lsquoGreen Urbanism wheelrsquo (Lehmann 2008)
The theoretical concept
of Green Urbanism
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Strategies for Low Carbon Cities
PART II
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collection of 17 broad goals set by the United Nations the
goals are interrelated though each has its own targets to achieve
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
The UNrsquos Sustainable Development Goals (SDGs) form the basis for the lsquoNew Urban Agendarsquo
The SDGs are a collectionof 17 broad goals set by the United Nations the goals areinterrelated though each has its own targets to achieve
Together the SDGs form the 2030 Agenda for Sustainable Development
SDG11 is the goal for Sustainable Cities
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
CITIES CONSUME
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
compact mixed-use
walkable
Traditional urbanism = Ecological urbanism
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Arles France
compact mixed-use
walkable
The City of short Distances
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Saint-Malo FranceReconstructed after WWII at approximately 57 peopleacre this is more dense than the average densities of both Tokyo (30 people per acre) and Vancouver (22 people per acre) A good example of how traditional urbanism can still be built and accommodate dense populations without the default of becoming a high-rise megacity
CompactnessOver 150 dwellings per hectare
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Low-density
US model
Houston
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Urban infill
Perimeter block
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Human scale ‒ Reclaiming public spaceCopenhagen Amsterdam Stockholm Freiburg
In Europe the city centre is given back to the pedestrian and cyclist
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Clusters of poly-centric cities not mono-centric
Inter-connected compact and mixed-use clusters
monocentriccity
Poly-centric
structure of cities
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Transit Corridors
The Helsinki Metropolitan Area
The 4 cities in the metropolitan area
are the cities of Helsinki Espoo
Vantaa and Kauniainen
To develop more housing in walking
distance to the railway stations
and along railway corridors -
this will reduce car-dependency and
CO2 emissions
It will link more people to public transport
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Low Carbon District Hub concept for station areas
Transit-Oriented Development (TOD)
Accessibility
Concentrate development around transit hubs and along transit corridors
TODs are usually located within a 500m radius from a transit stop
bull Neighbourhoods around commuter railway stations in the city
with short distances to facilities and public transport
bull Bus terminals can become good TODs too
bull Connectivity and high-quality pedestrian and cycling facilities
bull Housing on top of retail and shopping malls
bull Higher density living with a good mix of housing choices
bull Possible challenges air quality and noise and crime
Osaka station TOD
South Brisbane TOD
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Low Carbon District Hub concept for station areas
Small TOD Albion Station Brisbane
bull Commercial and residential buildings and public space are built on top or adjacent to the
station
bull Aiming for a seamless integration of apartment living retail food outlets and vibrant
public open spaces for a diversity of activities Pedestrian focus
bull Improvements of platform access with lifts and escalators
Albion Station TOD Brisbane
Additional 3000 residentsAdditional 2000 office workers
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
What makes the areas around railway stations and transport nodes so special
Why is urban infill in the existing urban fabric so difficult
How much car parking needs a TOD
While the whole of the city should be transformed towards low-carbon the station areas offer particular good starting points for this transformation
Railway stations are a microcosm of the larger city
500m radius
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Urban density creating urbanity
Makes cities compact and walkable and cycling an alternative mode of
mobility
Mixed-use
Bringing working living retail and services together again
London TODs bringing production back into the city
The role of a walkable public realm
new types of public spaces and urban landscapes emerging
The future of the car What about autonomous electric cars and car-parking
Low-carbon mobility The railway is always more energy-efficient (railway light rail subway)
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Performance aims of a Low-Carbon Station District
resulting in
(when compared to suburban livingbusiness-as-usual)
50 less car use
50 less energy use
min 25 energy from on-site renewables
Other indicators of Low-Carbon Districts
50 less water use
min 70 waste recycling rate
20 of land area allocated for public space (squares green)
min 15-20sqm green space access per resident
Housing on top of shopping mall
in Perth Australia
New public space Riverside Plaza
at Kings Cross London
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Urban regeneration Bringing back manufacturing as urban activity in the city
Temporary use to activate placesNew concepts of retail for instance Boxparkcouka pop-up mall combining street food with local brands galleries and fashion showsconstructed out of refitted shipping containers
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Urban regenerationOur manifesto for regenerating cities and brownfields (10 Strategies)
bull Mix of uses people can live work and play in the same areabull Streets and permeabilitybull Walkable scalebull Stick to the robust principles of built form controls
(such as setbacks designated heights)bull Thinking long-term and making the most of what we already havebull Bringing quiet production back to the city (bicycle workshops
food production 3-D printingmanufacturing etc)
Circular economy adaptive reuse of existing buildings repurposing of old buildings is very sustainable
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
hellipmore criteria for Low-Carbon Areas at Transport Hubs
PART III
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Comparing the same amount of people
in private cars ndash on bikes ndash in one bus
Too much public space is occupied by the car
In Europe car use is now decreasing
car bike bus
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Public Space is all around us
Public space is key
The public realm is vital to everyday urban life
Two urban regeneration theorists
Jane JacobsStreets parks community gardens squares small pocket parks and other forms of open spaces
Jan GehlPlace-making the space between buildings is crucial for the liveability and vitality of cities
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Longer life expectancy ndash
Health benefits of
good public space
The quality of public space has a direct impact on our health and well-being
reducing obesity and adding to life expectancy (recent study in Japan)
Health benefits
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
The value of Public Space ndash
Economic benefits
Creating economic and social values increased land value for surrounding properties
Good public space attracts talented people and more investment (UK study by CABE)
Economic benefits
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Urban regeneration ndash
Social benefits
The social decline of urban
areas is directly connected to
poor street design shabby
parks and neglected public
space
minus Urban rejuvenation
Social benefits
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
A well designed car
needs less fuelhellip
hellipbut will still
cause a traffic jam
Reducing car dependencyRe-compacting cities doing away with the need to driveFocus also on behaviour change
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Reducing the need to drive through proximity and densityCar sharing
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Bus Rapid Transit (BRT) systems in Curitiba and Bogota
lsquotrans mileniorsquo
BRT Low cost effective public transport carries over 15 mill people per day in both cities Curitiba and Bogota are leaders in the region
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Collaborative consumption new models of ownershipCar sharing
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
New types of infrastructure and
public spaces emerging
Infrastructure of the future
China 2016 507000 newe-automobiles and 115000 e-buses registered
Oslo
Stuttgart
London
Oslo
Multi-modallast milesolution
Usingair-rights
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
The performance of public space and landscape
Putting public land into productive use
producing food energy and cleaning water
Integrating low-carbon mobility
through new types of infrastructure
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
lsquoCradle to Cradlersquo lsquoTowards the Circular EconomylsquoRegenerative CitiesrsquolsquoWaste to Wealthrsquo
Green growthDecoupling economic growth from resource depletion
The principles of a Circular Economy
Some key publications
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
1 Stone is cut in Brazil
2 Stone is polished
in China 3 Stone is cladding
high-rise in Berlin
Shipped to China
Shipped to Germany
Example The supply chain of stone cladding in Germany increasing embodied energy
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Nature-based Solutions
Nature-based solutions (NBS) are
Living solutions inspired and supported by nature that simultaneously provide
environmental social and economic benefits and help to build resilience
Solutions that bring more nature and natural features and processes into
cities landscapes and seascapes through locally adapted resource-efficient
and systemic interventions
NBS have an important role to play
bull for climate regulation
bull to reduce impacts of climate change
bull to improve air-quality
bull to reduce water stress
bull hellip
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
An awareness of the value of nature in cities
The calming and cooling effect of nature Examples for re-naturing our cities
Urban farming for food security (Havanna)
Waterways in cities (Seoul)
More urban greenery and higher densities at the same time (Singapore)
Havanna
Seoul
Singapore
Biophilia
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Before (- 2005)
Reintroducing nature into the city
Cheonggyecheon a 7km long park
lsquoRe-naturingrsquo - Seoul
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
ldquoGarden City of Tomorrowrdquo
Ebenezer Howard 18981902
A radical social idea against overcrowding
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Water infiltration
with different land uses
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
History
New types of urban
infrastructure for the
poly-centric Network City
Doing more with lessCapturing stormwater
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions
Case Studies
Shrinking City Detroit
Urban Forest Melbourne
Brownfield Parco Nord Milano
Wageningen garden atrium
Urban regeneration post-industrial abandonmentConversion of neglected and abandoned urban areas into urban farms and community gardens
Urban forestTrees provide cooling reduce air pollutionand increase carbon sequestration
Kiitos
Professor Steffen LehmannSteffenLehmannCitiesgmailcom
wwwcity-futuresorgukwwwcity-leadershipcom
Questions