"Power to Gas" Potential of hydrogen from a utility perspective 7 th Stakeholder Forumof the European Partnership for Fuel Cells and Hydrogen Delivering Hydrogen and Fuel Cells ambitions in Horizon 2020 Brussels, 12 November 2014 Luc Poyer, E.ON France
Challenges in the German and the French power systems Germany: Intermittency of renewables capacities (national + local) MW W PV Hard coal Lignite Nuclear PV+Wind 30,7 GW Wind Gas/Oil Capacity in GW France: Increasing peak load demand French PeakLoadDemandin GW 120 100 80 60 40 20 0 Source: EEX, Frauenhofer, Mars 2013 Source: RTE, BDEW Annual average consumption German peak demand In both power systems significant and growing need for flexibility 2
Flexibility from 7 /Generation /Grids /Storage Power Hydro-to-Power Power-to-Power Hydrogen?... Gas-to-Power/Heat Gas Heat Power-to-Gas Coal-to-Power/Heat Power-to-Heat 3 /Demand Industry SME Residential Mobility
Why Power-to-Gas? Connecting markets Certificate Power Power Grid Electrolysis H 2 Storage Certificate Gas CH 4,Bio CO 2 SNG H 2 Natural gas grid Power Heating Mobility Industry Power Heating Mobility Industry Natural & renewable gas Renewable hydrogen 4
Example Falkenhagen : Power-to-Gas pilot project Regional oversupply by onshore wind capacities 3.271 7.039 60 Falkenhagen in Brandenburg region Increasing excess power Huge peak power Steep power gradients 3.642 4.601 3.071 MW 40 20 Local Generation Local consumption 2008 2009 2010 Solution: Storage of excess wind power instead of curtailment 5
Falkenhagen: From planning to operations in 12 months in cooperation with Swissgas Key Parameters Power: 2 MW el Hydrogen production: 360 m³/h Feed into the local gas grid (ONTRAS) Start of operation 28 Aug. 2013 Concentration H2 : max 2% In partnership with Swissgas AG Goals Demonstration of the process chain Optimize operational concept (fluctuating power from wind vs. changing gas feed) Gain experience in technology, costs, consenting Establish a new WindGas product Metering pipeline connection Low voltage supply Control Power supply Electrolysis 6
Falkenhagen: In operation since 28 th of Aug. 2013 What we will learn is about availability efficiency dynamics acceptance market for H 2 potential for improvement E.ON WindGas Innovatives Gas aus Windenergie 7
Example: Power to Gas for Refineries Fuel production today Fossil Energy Reformer Natural gas Hydrogen CH 4 H 2 Oil Innovative fuel production Reformer Hydrogen CH 4 H 2 Electrolysis Hydrogen Natural gas Power Fossil Energy Renewable Energy Renewable Energy Fermentation Biomass Ethanol H 2 Ethanol Certificate E5 / E10 Tank Certificate 8
Example Project Hydor: Demonstrator for solid storage of hydrogen in France The project Location: E.ON France thermal power plant site Emile Huchet in Lorraine region Demonstration: Evaluation of performance and flexibility for solid storage of hydrogen (McPhy) in an industrial environment Storage capacity 5kg H2 Project duration: 6 months 9
Summary Increasing need to integrate renewable energy leads to the interconnection between power, gas and heat system. Power to Gas can provide both, storage services for the power market and the integration of renewable power into mobility, industry and heating. Today, the major levers to push the development are Reduction of technology costs Exemption from end consumer fees Favorable regulation for green hydrogen 10
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Example: WindGas Hamburg Demonstration of advanced power to gas technology Draft: For Discussion Key Parameters Power: 1 MW el, 265 m³/h hydrogen Public funding from BMVI Partners: Hydrogenics, SolviCore, DLR, Fraunhofer ISE Fed into the local gas grid of Hamburg Planned start of operation Q4/2014 M&R PEM-Electrolysis Power supply Visitore centre Idea Development of high efficient Proton exchange membrane electrolysis (PEM with 80% eff.) Demonstration within E.ON infrastructure Business development 1 2