skanska green
DESCRIPTION
Skanska\'s Green AgendaTRANSCRIPT
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Skanska´s Journey to Deep Green
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Content
− The big picture
− What Green means to Skanska
− Skanska's Color Palette− Energy− Carbon− Materials− Water
− Tools for working with Green
− Tools to communicate Green
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Big Picture
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Reminder: The Future Society – a growth storyWorld population (in Billions): 1950-2050
85%
15%
Population in less developed countries
Population in more developed countries
47% urban
60% urban
1970 2000 2030
36% urban
urban
rural
70% urban
3.2 3.32.9
5.0
1.3
2.42.8
6.4
2050Source: United Nations, World Urbanization Prospects: The 2006 & 007 Revisions
3 billion more people living in cities in 20503 billion more people living in cities in 2050
Urban population (in Billions) 1970-2050
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0
1
2
3
4
5
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1950 1960 1970 1980 1990 2000 2010 2020 2030 2040 2050
Population in less developed countries
Population in more developed countries
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CO2 emissions by sector
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Source: Global Env. Outlook 2000 (GEO), UNEP, Earthscan, London,Source: Global Env. Outlook 2000 (GEO), UNEP, Earthscan, London, 19991999
Water
The majority of the water on Earth, 97%, is in the oceans, while an additional 2% is frozen in the ice caps and glaciers. Only a fraction is available as a supply for drinking water - When will we stop flushing toilets with drinking water?
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Market / Customer needs
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What the market is telling us…
Buildings in the US with a high Energy Star rating are attracting rental premiums of 3% per square foot compared with non-green buildings of the same size, location and function. Royal Institution of Chartered Surveyors
There is a significant existing stock of buildings, particularly in the EU, thatare ageing. These buildings pose a large opportunity for green building inthe future. Key Trends in the European and US Construction Marketplace. McGraw - Hill.
'I approach environmental performance issues in three broad ways: Improving our own culture and operations, influencing - indeed, pressurizing - the companies that do business with us, and championing renewable-energy development.' Jose Sergio Gabrielli De Azevedo, President and CEO of Petrobras
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Green Products and Services
226
450
117
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149
101
30
0 100 200 300 400 500
Renewable energy sources
Energy efficient design solutions
Low carbon solutions
Carbon monitoring of projects
Eco design evaluation and certification
Refurbishment / retrofitting of infrastructure
Factory engineered / prefabricated solutions
Others
Number of Responses
Our Customers - What 'green' products or services would you like us to focus on in the next 2-4 years?
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The world is changing – fast
EU: committed to a 60% reduction in carbon emissions by 2050
National Grid –major investment in its electricity and gas network in UK and USA
Norway: Carbon neutral by 2030
USA: 36 states anticipate water shortages by 2013
Petrobras –focusing on bio fuels and low carbon technologies
NY MTA wanting to reduce its energy consumption and ‘green’ its operations.
UK Highways Agency: All network to be low carbon construction, maintenance and operation
Set/planned regulations
Company actions
UK’s CRC forcing large organisations to reduce their CO2emissions
Tesco – green stores in every country it operates
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What it means to Skanska
January 11 Skanska - Deep Green Journey12
Johan Karlström, President and CEOSkanska AB
“We are determined to be the leading green project developer and contractor.The demand is in the market place. It is:- A great business opportunity- Right for the planet- Attractive for our people”
Johan’s message
October 2010
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Anticipated investment needs for urban infrastructure up to 2030 (US$ trillion)
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Systems planning
Mobility
Water Technology
Buildings Financing
Lots of opportunities...
Source: Booz Allen Hamilton, 2007
Business opportunity …
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Color Palette
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Green
Skanska’s Culture & Values
Deep GreenVanilla
• Intelligent / challenging customers
• Form of contract – allowing early involvement
• New financial models
• Innovative supply chain – working in partnership
• Leadership – behaviours / setting examples
• Design – considering the local environment and using the best technology
• Communication – internally and externally
Accelerators
Skanska’s Deep Green Journey
The Leading Green Project Developer and Contractor
Future proofing the road ahead
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Zero−Waste (to landfill)
−Unsustainablematerials
−Net primary energy
−Carbon construction
−Water discharge
−Haz Materials
Color Palette
Energy
Carbon
Materials
Water
Vanilla Deep GreenGreen
−Rules
−Regulations
−Standards
−Codes
Compliance Future proofBeyond compliance
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Driving the change to Deep GreenTM
Vanilla Deep greenGreen
Compliance Future proofBeyond complianceM
arke
ting
& co
mm
unica
tion
Rev
enue
Energy
Carbon
Materials
Water
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Our Journey to Deep Green
Vanilla: Construction progress or product performance is compliance with law, regulations, codes and standards
Green: Construction process or product performance is beyond compliance, but not yet at a point were what we construct and how we construct it can be considered to have near-zero impact
Deep Green: Construction process or product performance is future proofed - for example, it consumes zero net energy and produces zero waste
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Energy - Getting a whole lot more out of a whole lot less
Policy as a supportive framework
Transformation is needed to alter the outcome..
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Hostetin Centre
Net ZeroPrimary Energy
Net Zero Water
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials 5)
Zero Waste
Energy performance25 % better than
local code
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 10%
waste to landfill
Preliminary baseline for the use of potable water in operation
established. Consumptionreduced by 10%
Energy performance50 % better than
local code
Over 25% reduction of the footprint by savings
inmaterials and the
construction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill
Measures to reduceconsumption of potable
water by > than 25%
Energy performance75 % better than local
code and renewables used
Over 50 % reduction of the footprint by savings
in materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than2.5% waste to landfill
Measures to reduceconsumption of potable
water by >than 50%.
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cePassive design, solar heating
Rainwater harvesting, water efficient fittings
Near zero waste and zerounsustainable materials
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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2
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Hillsborough Intermodal Transit Facility, USA
Net ZeroPrimary Energy
Net Zero Water
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials 5)
Zero Waste
Energy performance25 % better than
local code
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 10%
waste to landfill
Preliminary baseline for the use of potable water in operation
established. Consumptionreduced by 10%
Energy performance50 % better than
local code
Over 25% reduction of the footprint by savings
inmaterials and the
construction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill
Measures to reduceconsumption of potable
water by > than 25%
Energy performance75 % better than local
code and renewables used
Over 50 % reduction of the footprint by savings
in materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than2.5% waste to landfill
Measures to reduceconsumption of potable
water by >than 50%.
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Model estimates 20% reduction in water usage
Carbon analysis on major materials
Natural ventilation /photovoltaic system
Waste management
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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2
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Blå Jungfrun, Swe
Net ZeroPrimary Energy
Net Zero Water
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials 5)
Zero Waste
Energy performance25 % better than
local code
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 10%
waste to landfill
Preliminary baseline for the use of potable water in operation
established. Consumptionreduced by 10%
Energy performance50 % better than
local code
Over 25% reduction of the footprint by savings
inmaterials and the
construction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill
Measures to reduceconsumption of potable
water by > than 25%
Energy performance75 % better than local
code and renewables used
Over 50 % reduction of the footprint by savings
in materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than2.5% waste to landfill
Measures to reduceconsumption of potable
water by >than 50%.
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ceAir tightness, heat recovery, insulation
Prefabricated formwork
ECO2 tool trialed
Metering & water efficient fittings
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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Built environments is responsible for around 40 percent of all energy use and mad-made carbon emissions*.
We have what's needed to reduce carbon emissions.
Carbon
*Energy Efficiency in Buildings, Transforming the Market, WBCSD, April 2009
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Net Positive Energy
Zero Potable Waterfor Construction
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials6)
Zero Waste
Baseline established using applicable industry standards > 10 % reduction of baseline
consumption
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainableMaterials4) with < than 10%
waste to landfill5
Preliminary baseline for use of potable water at site
established. Sustainable8
drainage system in place.
> 25 % reduction of baseline
consumption
> 25 % reduction of the footprint by savings in
materials and theconstruction process.
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill5)
Measures to reduceconsumption of potable
water by > 25%.
> 50 % reduction ofbaseline consumption and
renewables used
> 50 % reduction of the footprint by savings in
materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < then2.5% waste to landfill5)
Measures to reduceconsumption of potable
water by > 50%.
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M25 Project, U.K.
New lighting technology being considered
92% recycled content for bulk materials
Carbon Capture Tool used
Recycle runoff water
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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End of life2%
Piling4%
Concreteworks18%
Steel 35%
Roofing &cladding9%
Raised floors, walls & partitions 7%
Lifts, M&E & Fitout 12%
Onsiteworks13%
Carbon Footprint: One Kingdom Street, London
− Understanding CO2emissions
− Operation ~ 80%, Embodied ~ 20%
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MaterialsConstruction is one of the most inefficient industries when it comes to consumption of finite resources
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2
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Pilestredet Park, Norway
Net ZeroPrimary Energy
Net Zero Water
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials 5)
Zero Waste
Energy performance25 % better than
local code
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 10%
waste to landfill
Preliminary baseline for the use of potable water in operation
established. Consumptionreduced by 10%
Energy performance50 % better than
local code
Over 25% reduction of the footprint by savings
inmaterials and the
construction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill
Measures to reduceconsumption of potable
water by > than 25%
Energy performance75 % better than local
code and renewables used
Over 50 % reduction of the footprint by savings
in materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than2.5% waste to landfill
Measures to reduceconsumption of potable
water by >than 50%.
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Reuse of materials & domestic waste recycling
Air tightness, heat recovery, insulation
Metering & water efficient fixings
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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WaterWaterNew ways to conserve water
The majority of the water on Earth, 97%, is in the oceans, while an additional 2% is frozen in the ice caps and glaciers. Only a fraction is available as a supply for drinking water, which is already in short supply in many parts of the world.
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1
2
7
Net Positive Energy
Zero Potable Waterfor Construction
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials6)
Zero Waste
Baseline established using applicable industry standards > 10 % reduction of baseline
consumption
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainableMaterials4) with < than 10%
waste to landfill5
Preliminary baseline for use of potable water at site
established. Sustainable8
drainage system in place.
> 25 % reduction of baseline
consumption
> 25 % reduction of the footprint by savings in
materials and theconstruction process.
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill5)
Measures to reduceconsumption of potable
water by > 25%.
> 50 % reduction ofbaseline consumption and
renewables used
> 50 % reduction of the footprint by savings in
materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < then2.5% waste to landfill5)
Measures to reduceconsumption of potable
water by > 50%.
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ODA, London
Renewable wind, energy for lighting
Extensive use of recycled aggregates/ durakerks
Strong client focus / lots of initiatives
>60% non potablein construction
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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1
2
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Nemours Hospital
Net ZeroPrimary Energy
Net Zero Water
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials 5)
Zero Waste
Energy performance25 % better than
local code
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 10%
waste to landfill
Preliminary baseline for the use of potable water in operation
established. Consumptionreduced by 10%
Energy performance50 % better than
local code
Over 25% reduction of the footprint by savings
inmaterials and the
construction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill
Measures to reduceconsumption of potable
water by > than 25%
Energy performance75 % better than local
code and renewables used
Over 50 % reduction of the footprint by savings
in materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than2.5% waste to landfill
Measures to reduceconsumption of potable
water by >than 50%.
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lcod
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tand
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and
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Water efficient fittings & no potable water usage in landscaping
No carbon measuring
Designed to perform at 31% above ASHRAE/local code
Styrofoam recycling & use of low emitting materials
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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1
2
6
Bristol Schools, U.K.
Net ZeroPrimary Energy
Net Zero Water
Near ZeroCarbon Construction
Zero UnsustainableMaterials4)
Zero HazardousMaterials 5)
Zero Waste
Energy performance25 % better than
local code
Preliminary project carbonfootprint3 established and
used to perform valueengineering
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 10%
waste to landfill
Preliminary baseline for the use of potable water in operation
established. Consumptionreduced by 10%
Energy performance50 % better than
local code
Over 25% reduction of the footprint by savings
inmaterials and the
construction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than 5%
waste to landfill
Measures to reduceconsumption of potable
water by > than 25%
Energy performance75 % better than local
code and renewables used
Over 50 % reduction of the footprint by savings
in materials and theconstruction process
Use design and planningreviews to: maximize the
(re)use of sustainablematerials4) with < than2.5% waste to landfill
Measures to reduceconsumption of potable
water by >than 50%.
loca
lcod
es, s
tand
ards
and
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nsin
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Water efficient fittings
Waste management
Building envelope,M&E, Biomass
For internal use only**can be used externally if the stepping stones (text describing the steps on CP) are removed
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Tools to help …
− Lifecycle analysis
− Green BIM
− Toolbox incl Green Solutions
− Sustainability Project Case Studies
− Certifications / Global associations
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Skanska Management Meeting - What do you consider the main obstacle in implementing a Green strategy in your Business Unit?
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ConstructionMachines, disposal of waste
Life Cycle Analysis
Design Energy, environment,materials
Operation & MaintenanceEnergy consumptione.g. Heating, lighting, disruption, waste
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Green BIM
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Green Toolbox – Introductory page
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Green SolutionsThe aim of Green Solutions:• To share green knowledge across Skanska.
What is a Green Solution:• A product or service that is an integral part of a project• Provides environmental and economic benefits to our customers• Has been used at least once somewhere in Skanska• Is transferable to other Business Units • Is strategically important to Skanska’s business
A Green solution is not:• A construction project • An internal process • A research project• A concept or a prototype
The Green Solutions are for internal purposes only as they contain information e.g. contact details, that may not be appropriate for external distribution.
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Green Solutions - Building
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Green Solutions – Civil / Infrastructure
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Sustainability Project Case Studies
http://skanska-sustainability-case-studies.com/
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Sustainability Project Case Studies - Building
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Sustainability Project Case Studies – Civil / Infrastructure
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Skanska is an active participant in a number of international Sustainability initiatives
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Skanska in the USGBC
− Member since 2000
− Member of the Board of Directors since 2008, representing Contractors and Builders
− Chair of Ethics committee and Chair of FinancialCommittee
− Cost analysis1 of the Living Building Challenge, the beyond-LEED® Platinum metric developed by the Cascadia Chapter of the USGBC
1. a study led by SERA Architects, joined by Skanska USA Building, Gerding/Edlen Development, New Buildings Institute and Interface Engineering, with the staff of Cascadia, a chapter of the USGBC
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Sweden:Prospective GBC
Founded 2009
Skanska founding partnerand board member
Finland:Prospective GBC
Founded 2010
Skanska founding company and board member
Logo underDevelopment
United Kingdom:Established GBC
Founded 2007
Skanska Gold Leaf member
Hungary:Prospective GBC
Founded 2009
Skanska board member
Poland:Established GBC
Founded 2007
Skanska premium foundingcompany and boardmember
Denmark:Prospective GBC
Founded 2010
Skanska founding partner and board member
Logo underDevelopment
Norway (non-EU):GBA key stakeholder in establishing NGBC
Skanska member of the provisional NGBC board
GBA: alliance of owners and developers of commercial
property
Czech:Associated Group
Founded 2009
Skanska founding partner and board member
Other GBC participation
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− Color Palette
− Green Communications strategy
− Green Thinking, the book and power point
− Green City
− Green Urban Development Report
− Green Symbol
− Green Media Centre
Tools to communicate Green
Responsible:
Maria Lomholt & Malin Dalén
GSU Communication
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Green Thinking24 class
Planning today for tomorrowPutting what we construct into the bigger picture
Green Thinking8 class
Refurbishment is comingLEED Platium at level 32Example of reduction− 57 % reduction of energy consupmtion− 40 % water use reduction− 80 % of construction waste recycled
Get your own copy at: www.skanska.com
Green thinking is available as a power point onon OneSkanska, Green Communications.
Feel free to chose and pick as it suits you.
Green thinking
Green Thinking1 class2
Green thinkingThere’s more to buildinga green society than just building
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http://www.skanska.com/en/About-Skanska/Our-green-initiative/The-Green-City/
Green City
Green City is an interactive site that features our journey to deep Green. It presents a selection of Skanska's great Green projects.
The site is available for local adaptations.
Contact Malin Dalén or your Country Web Manager for instructions on how to locolize the site.
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Green Urban Development Report
The purpose of this report series is to boost Skanska's position as an industry leader within Green Construction. The report will focus on future trends within Planning, Urban living, Development & Construction.
www.skanska.com/greeninitative
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Green Media Centre
Skanska's Green Media Center is a tool for proactive PR. Here you will find information such as our Green messages, a shortlist of words and phrases to avoid Green wash, actual spokespersons etc.
one.skanska/greencommunications
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Green SymbolOur green symbol is a "highlighter" - not a quality stamp. It puts all our green efforts under one umbrella and communicates our commitment, our responsibility and our concern for the environment.
It should be used whenever we want to put green in focus and it replaces local green symbols that have been used previously
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Skanska’s Green Initative
“Skanska is determined to be the leading green project developer and contractor”