ENERGY STORAGE DEMONSTRATORS

Transcription

1 SCCER Heat and Electricity Storage ENERGY STORAGE DEMONSTRATORS Prof. Dr. Markus Friedl, Head of Institute Sandra Moebus, Manager Power-to-Gas IET Institute for Energy Technology

2 Content Introduction IET Institute for Energy Technology SCCER HaE Task 5.4 Academic Partners Involved Objectives Current Status at ES Demonstrators High Efficiency Power-to-Methane Pilot Grid to Mobility Demonstrator Martigny Small Scale Demonstrator Sion Energy System Integration Platform Assessment of ES Demonstrators Joint Activity CEDA Objectives and State of Work 2

3 IET Homepage: YouTube Channel: IET Institute for Energy Technology Facebook Page: Friedl Meier Ruoss Schmidlin Moebus Gorre de Sousa Angst Lydement Steiner 3

4 SCCER HaE Task 5.4 SCCER HAE TASK 5.4

5 SCCER HaE Task Four Power-to-Gas demonstrators in SCCER HaE Phase ll Academic Partner Demonstrator Project Management HSR Hochschule für Technik Rapperswil High Efficiency Power-to- Methane Pilot HEPP Markus Friedl, Luiz De Sousa, Sandra Moebus, EPFL Vallais, Martigny EPFL Vallais, Sion PSI Paul Scherrer Institut Grid to Mobility Demonstrator Grid2Mobility Demonstrator Small-Scale Demonstrator Sion SSDS Energy System Integration Platform ESI Platform Hubert Girault, Heron Vrubel, Véronique Amstutz Andreas Züttel, Noris Gallandat Peter Jansohn, Marcel Hofer, Tilman Schildhauer 5

6 SCCER HaE Task 5.4 Objective: Improvement of power-to-gas systems Each group works on the same objective, but on its own Power-to-Gas Demonstrator. The four academic groups design improved Power-to-Gas systems using state-of-the-art laboratory technologies and to bring them to TRL 6. Results in 2017 All academic partners designed, ordered and installed their research equipment. Several meetings were organized in order to exchange the experience and preliminary results. 6

7 SCCER HaE Task 5.4 CURRENT STATUS AT ES DEMONSTRATORS

8 HEPP by HSR High Efficiency Power-to-Methane Pilot Partner of EU project Pentagon Partners from Academia and Industry 8

9 HEPP by HSR High Efficiency Power-to-Methane Pilot Demonstrator designed and run by HSR located in Rapperswil Installation finished in mid-2018 Research Question Improvement of efficiency of Power-to-Methane technology to 70% Answering industry relevant questions for Scale-Up and investigating system behaviour Integration of innovative technologies developed in Switzerland Friedl, M.J. Pilot- und Demonstrationsanlage Power-to-Methane HSR: Schlussbericht. (PDF) (Jul 19, 2017) Moebus, S. Aqua & Gas, 2017, 7/8,

10 HEPP by HSR Main technical features: 5 kw Solid Oxide Electrolyser Cell Waste heat management New catalysts for methanation New membrane separation technology New gas analysis technology 10

11 Grid2Mobility Demonstrator Martigny by EPFL Valais Grid to Mobility Demonstrator Martigny Demonstrator designed and run by EPFL in Martigny Results are expected from 2018 Research Questions Better understanding the chain between grid and/or renewable energy and electrical vehicles due to increase of electrification of transportation Investigating changes in the electrical grid infrastructure introduction of renewable energy sources energy storage Peljo P. et al, Green Chemistry 6, 1785,

12 Grid2Mobility Demonstrator Martigny by EPFL Valais Main technical features: Redox flow battery 200kW / 400kWh Electrolysers: Alkaline (50kW) and PEM (25kW) H 2 refilling station 350 / 700 bar Electrical charger Compressed hydrogen storage 12

13 SSDS by EPFL Valais Small-Scale Demonstrator Sion Demonstrator designed and run by EPFL in Sion Demonstrator is currently being built and commissioned in fall 2017 Research Questions Showcasing technical feasibility of the conversion from renewable energy to synthetic hydrocarbons Power installation of the world average energy consumption of a single person (2 kw) Studying the energy flows and reservoirs and the interaction between different components and degradation of the components under working conditions N. Gallandat, J. Bérard, F. Abbet, and A. Züttel, Small-scale demonstration of the conversion of renewable energy to synthetic hydrocarbons, Sustain. Energy Fuels,

14 SSDS by EPFL Valais Main technical features: PV electrical power production PEM Electrolyser Hydrogen storage in metal hydrides Hydrogen compression using metal hydrides Synthetic fuels production (methane, methanol) 14

15 ESI Platform by PSI Energy System Integration Platform Demonstrator designed and run by PSI located in Villigen Experimental platform for research and industry Research Questions Research and technology transfer for SCCERs HaE and BIOSWEET Hydrothermal gasification / methanation of waste from food industry Direct methanation of biogas (Power-to-Gas) with real biogas from the Zürich WWT plant First new catalysts synthesised based on Metal-Organic Frameworks (MOF) Biollaz S, Calbry-Muzyka A., Schildhauer TJ,, Witte J, Kunz A; Direct methanation of Biogas Final Report BfE project , 2017; Reimer, J.; Müller, S.; De Boni, E.; Vogel, F. Hydrogen-enhanced catalytic hydrothermal gasification of biomass, 2017, Biomass Conversion and Biorefinery, published online, DOI /s y. 15

16 Paul Scherrer Institut (PSI) Main technical features 100 kw PEM- Electrolyser Gas storage tanks (H 2, O 2, CO 2 ) 10 kw transportable methanation unit ( Cosyma ) 2 kw transportable hydrothermal gasification/methanation unit ( Konti C ) 160 kw SNG pilot scale fluidized bed methanation plant ( GanyMeth ) 16

17 SCCER HaE Task 5.4 ASSESSMENT OF ENERGY STORAGE DEMONSTRATORS

18 SCCER JA CEDA Aim of Joint Activity Coherent Energy Demonstrator Assessment (CEDA) Assessment of the investigated storage and conversion techniques of heat and electricity storage demonstrators On base of the results the scale-up of the technologies can be investigated to determine the impact of the technologies on a countrywide level. SCCER Energy Research Centers in CEDA 18

19 SCCER JA CEDA State of Work Technologies are defined with their Input parameters Output parameters Inputs (t) Scaling value Input var Technology Inputs Outputs=f( Scaling ) Input var Outputs (t) Output var Next Steps All parameters will be well defined Where to measure What is included or excluded Quantifying the parameters due to real measurements of the Energy Storage demonstrators in 2018 Up Scaling the real values 19

20 SCCER HaE Task 5.4 Assessment of ES Demonstrators HEPP, ESI, Grid-to-Mobility, SSDS State of Work Starting the scientific exchange of know-how between the academic groups Discussions about common parameters and assessment methodology with expected results in 2018 Assessing the measured dates from the ES demonstrators in 2018 and expecting to publish the results in 2019 Coordination the results with the research from JA CEDA 20

21 Swiss Competence Center for Energy Research Heat & Electricity Storage Task 5.4 Assessment of Energy Storage Demonstrators HSR Hochschule für Technik Rapperswil Paul Scherrer Institut EPFL Valais Martigny EPFL Valais Sion Contact: