Jupiter 1000 project: the first industrial demonstrator of ...€¦ · 12 Jupiter 1000, a...
Transcript of Jupiter 1000 project: the first industrial demonstrator of ...€¦ · 12 Jupiter 1000, a...
Jupiter 1000 project: the first
industrial demonstrator of
Power to Gas in France
Daniel Schroeder
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Power to Gas
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From Power… to Gas
4 H2 + CO2 2 H2O + CH4
Power
Injection into the
gridElectrolysis
Power to gas installation
CO2
CH4H2
H2O O2
H2
Methanation
With methanation: increasing quantities, increasing synergies
When gas networks offer a solution to store surplus of renewable electricity
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Jupiter 1000 project
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Jupiter 1000 : French sector’s players working together
Gas Grid
Operator
Harbour developerMethanation
manufacturer
Electrolysis
manufacturer
Power Grid
operator
CO2 capture
unit manufacturer
Power
producer
*Proton Exchange Membrane
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Project overview
Electrolysers
Methanation
Analysis, mixingand injection
into the gas grid
Supervising
Compressors
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INNOVEX
Downstream industrial
clientsC.N.R Windfarms
Power installed: 10 MW
4 windfarms
Production : 28 000 MWh
(equal to the consumption
of 8000 households).
Jupiter 1000 site location on INNOVEX plateform in Fos-sur-
Mer, closed to our downstream industrial partners
Source of CO2
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• H2 (100 % « without methanation » mode)
• Syngas : CH4 & H2 (upon 30% from 25 m3/h) ; CO2 ( 7%); CO (~ 1 %)
Injected gas composition
• H2 flow : 200 m3/h
• Syngas flow : 25 – 30 m3/h
• Pipeline flow : min. 4450 Nm3/h
Flow rates
• No complementary odorisation
OdorisationDilution factor
> 10
Composition of gas in entrance of the injection post
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Planning
Decision to launch Jupiter 1000 Project March 2016
Engineering file December 2016
Administrative approvals July 2017
Start of the construction September 2017
End of the construction December 2018
H2 commissioning with injection T1 2019
SNG commissioning with injection T3 2019
Operations 2020 - 2021
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Budget
Global budget 31,3 M€
GRTgaz participation 57 %
Institutional support 32 %
The JUPITER 1000 project is cofinanced by the European Union within the
framework of the Fund FEDER, by the French State within the framework of the
Investments of Future entrusted by the ADEME and by the Region Sud
Provence-Alpes-Côte d'Azur.
.
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The aims of the project
Confirm the
potential to store
green electricity
surplus
- Confirm the flexibility offered to help the power grid
(ancillary services, excess of green electricity…)
- Validate all the technologies : electrolysers, methanation
and CO2 capture
- Experiment the possibility of injecting hydrogen into the
gas grid
Build a Business
Model
- Work on technical and economical models and determine
the conditions for profitability
Launch the Power-
To-Gas sector in
France
- Help the public authorities to build favourable conditions for
the emergence of a new industrial sector in France
The best way to convince is to achieve a proof of concept.
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Jupiter 1000, a techno-economic analysis project
The construction of a demonstrator is useful to validate or unvalidate the given
hypotheses.
Forecast
electricity prices
Valuation of
the balancesAnalysis method
Learning curves of
technologies
Forecast gas
prices
Realized in partnership with the CEA of Grenoble, the modelling of the system for the
economic analysis bases itself on the data of the set of the project partners:
Every partner brings a relevant data to
the whole chain.
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The JUPITER 1000 project is cofinanced by the European Union within the framework of the
Fund FEDER, by the French State within the framework of the Investments of Future
entrusted by the ADEME and by the Region Provence-Alpes-Côte d'Azur.
The project was also certified by the pole of competitiveness Capénergies.
Support :
Partners :
The JUPITER 1000 project aims to build and run a Power-to-Gas demonstrator with
methanation, carbon capture and valuation of CO2. Coordinated by GRTgaz, the project
gathers partners with complementary expertises.
Jupiter 1000 project, piloted by :