44,500 au engineering€¦ · aarhus university au aarhus university –more facts 44,500 full-time...
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HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
AARHUS UNIVERSITY – MORE FACTS
▪44,500 Full-time students (52% graduate level students)
› 4,500 international students (103 nationalities)
› 3,400 full-degree int. students
› 1,100 exchange students
▪80 Bachelor programmes
▪120 Master degree programmes - 60 % are taught in English
AU ENGINEERING .
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU2
AU ENGINEERING – SHORT HISTORY
2011 : Formal Establishment of AU Engineering Sciences
2012 : Merge of Diploma Engineering School into AU
2016 : Enrolled Engineering Students (ENG + ASE) : approx. 3000 students
Annual Turnover (ENG + ASE) : approx. 360 M.DKK
External Research Funds (ENG) : approx. 100 M.DKK
Enrolled Engineering PhD Students (ENG): 80 students
2025 : Ambitious 10-year AU Investment and Growth Plan in Engineering
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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Lars DM Ottosen
Department of Engineering, AU
Head of Section for Biological and Chemical Engineering
Acting (AU) project manager on Applause
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
Manufacturing
Sustainable Energy
Healthcare
Agriculture
InterdisciplinaryTechnologyPrograms
Disciplines
Civ
il E
ngi
nee
rin
g
Arc
hit
ectu
ral
Engi
nee
rin
g
Elec
tric
al E
ngi
nee
rin
g
Co
mp
ute
r E
ngi
nee
rin
g
Mec
han
ical
En
gin
eeri
ng
Bio
logi
cal E
ngi
nee
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Ch
emic
al E
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Industrial Biotech
Computing, Intelligence and Connectivity
Advanced Materials
Strategic Growth Technology
Domains
DEPARTMENT OF ENGINEERING STRATEGY
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
AU Agricultural
Technology
Program
AU Center for Biorefinery Technologies
Chair: Ib Johansen
AU Center for Smart Farming
Chair: Claus A.G. Sørensen
AU Center for Low-Emission Agriculture Technologies
Chair: Anders Feilberg
AU AGRICULTURAL TECHNOLOGY PROGRAM
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
AU Sustainable
Energy Technology
Program
Program Manager Thomas S. Toftegaard
Energy Efficiency and Indoor Climate in Buildings Steffen Pedersen
Flow-Battery Energy Storage Anders Bentien
Smart Energy Grids Rune H. Jacobsen
Power-to-Gas Technologies Lars D.M.
Ottosen
Complex Sustainable Energy Systems Martin
Greiner
Wind Atlas Gorm
Andreasen
Biogas-to-Grid-Integration Technologies Henrik B
Møller
AU SUSTAINABLE ENERGY TECHNOLOGY PROGRAM
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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Opportunities and challenges in renewable energy
Growing supply of renewable electricity, fluctuating nature
Demand for flat rate suppliers and
Massive demand for energy storage
Still huge demand for carbon based energy carriers (transport)
And carbon for food feed and materials
4 DECEMBER 2017DATACENTERS
HEAD OF SECTION, ASS. PROFESSORLARS DM OTTOSENAARHUS
UNIVERSITYSCIENCE AND TECHNOLOGY
AU
APPLAUSE
APPLe and Aarhus University together for Sustainable Energy
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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WHY APPLAUSE?
AU and APPLE have a joint vision on renewable energy
We take the challenge of a fossil independent energy system no later than 2050 serious
We see the potential for biogas as a key enabling technology
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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To built a research and development platform
Large pilot scale (actually producing 1.8 mio m3 biogas/year)
Full information on industrial potential (aim) of developed technologies
Integrated in AU existing research strategy
PURPOSE
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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Fuelcell
Coupling of
• Electricity grid (blue)• Gas grid (green)• District heating grid (red)
for net balancing and energy storage.
Simplified concept
1. Renewable electricity balance consumption: Green gas is injected into the gas grid (CO2 removed/stored)2. Renewable electricity exceed consumption: CO2 component is converted to CH4 using electricity, and injected
into the gas grid3. Renewable electricity below demand: CH4 is drawn from the gas grid and converted to electricity
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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WP1: increased anaerobic digestion yield from waste biomasses (build the anaerobic digester technology of the future)
WP2: Storing energy through methanation using ”surplus” electricity (Develop cost efficient and dynamic methanation technology)
WP3: Conditioning of gas for fuel cells (clean the biogas or grid gas for the fuel cell)
WP4: Using fuel cell technology for conversion of gas to electricity (develop dynamic power backup using fuel cells)
WP5: “Local” energy system modeling (figure out how to optimize the concept for the future)
WP6: System integration (make the stuff work together)
Work Packages
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
Manure storage
Storage
Post
digestion
Research digestersMain digester
Offices
and lab
Gas cleaning
Manure
Tanks
Research
lab
Biofuel lab
Feeding
Pretreatment
Biomass storage
Deep litter
Storage
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
FULLY DEVELOPED BIOGAS PLANT
Gas storage
Fuel cells and methanation
BiorefineryPretreat-ment
Air cleaning
Post digestion Manure
storage
Manuredelivery
Digesters
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
TIME LINE FOR BUILDING PERMISSION
August 2016: Viborg Council accepted development of the project
January 2017: Scoping description accepted
February – May 2017: Development of local and environmental plan
June 2017: Viborg Council meeting
August 2017: Official hearing, objections by neighbours?
February 2018: Final permissions granted
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
TIME LINE FOR BUILDING
April 2017: Description of stage 1 buildings
October 2017: Hiring of building advisor and detailed description of the project
Jan – Feb 2018: Tender
March 2018: Tender evaluation
April – May 2018: Negotiations with constructors
June 2018: Construction starts.
HEAD, BIOLOGICAL AND CHEMICAL ENGINEERING
LARS DM OTTOSEN
DEPARTMENT OF ENGINEERING
AARHUSUNIVERSITY
AU
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AU invitation in general:
Take the opportunity to join the project
Bring in more datacenter energy challenges
Create new projects profiting from the Applause platform
AARHUSUNIVERSITY
AU
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