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Vitry‐le‐François(France)
Vitry‐le‐Françoispositive energy territory
for a green growth
An historical city…
An industrial zone…
An agricultural background…
At the heart of Champagne
Population
City : 15 000 inhabitants District : 50 000 inhabitants
Energy balance 2014 (in MWh)
1460 GWhVitry district consumption…
Industry 52%
Housing 36%
Services sector 7%
Agriculture 5%
31%
44%
21%
4%
Vitry district France
A 12 MWh per capita consumption (50% more than the average consumption in France)
Energy balance 2014 (in MWh)
But, already365 GWhproduced by renewable energies(mainly wind energy)
50 windmillsIn 2016…
… 100 in 2020
+4 biogas plants in construction
1 hydro power plant in activityand 1 in construction
1 biomass district heatingnetwork for 3 000 housings
2016‐2030 Towards a decentralized energetic system
PRINCIPLES :
An integrated and shared energy program
Interacting nearby production and local consumption
Developing the network , storage and mobility flows
2016‐2030 Towards a decentralized energetic system
OBJECTIVES IN URBAN DEVELOPMENT
All new buildings are eco‐friendly projects
biomass heating
Passive houses
Connected by smart grid
2016‐2030 Towards a decentralized energetic system
ENERGY CONTROL
Awareness of residential, commercial , agricultural, and small industry sectors
Optimization of public lighting, energy costs in public buildings and small industry
2016‐2030 Towards a decentralized energetic system
RENOVATION OF INDIVIDUAL HOUSING Over 3 000 dwellings up to the standards of sustainable development by 2030
Mobilization and training of local artisans
Deployment of the smart grid
2016‐2030 Towards a decentralized energetic system
HEATING NETWORK
Boilers renewal with cogeneration
40 new customers : hospital, aquatic center, sports facilities, public buildings
Creating a heat and cooling network with local factories
2016‐2030 Towards a decentralized energetic system
MOBILITY
Establishment of a collaborative network for the rural transport
Deployment of a fleet of electric vehicles
testing of a network of hydrogen stations from biomass
2016‐2030 Towards a decentralized energetic system
NEW COURSES
Industrial ecology initiatives in cooperation with the local factories
Deploying a circular economy :• recover and process 100 % of waste• generate local organic sector for
public catering
Organize the local wood industry for the urban and industrial boiler feed
2016‐2030 Towards a decentralized energetic system
INNOVATIVE PROJECTS
Building smart homes
Create a smart hospital
2016‐2030 Towards a decentralized energetic system
ENERGY BENEFITS BY 2030
Reduction of approximately 310 GWh of energy consumption
20 M € discount on energy bills for consumers
2016‐2030 Towards a decentralized energetic system
ENVIRONMENTAL BENEFITS BY 2030
Less 80 kteq CO² greenhouse gas
Increase of 250 GWh of renewable energy
2016‐2030 Towards a decentralized energetic system
SOCIO‐ECONOMIC BENEFITS BY 2030
2016‐2030 Towards a decentralized energetic system
SOCIO‐ECONOMIC BENEFITS
About 2 000 permanent jobs created Disparition of energy insecurityDevelopment of innovative activities Increased attractiveness of the region
Thank you for your attention
Vitry‐le‐François(France)
