AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
IEA HydrogenIntroduktion
Jan K Jensen, DGC
28. november 2017Den dansk brint- og brændselscelledag 2017
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
IEA Energy Technology Network
IEA Hydrogen er én af IEA`s 40 TCPèr (Technology Collaboration Programmes), som til sammen udgør IEA`s Energy Technology Network. I alt ca. 6.000 energi-specialister deltager i netværket og heraf kommer ca. 200 fra IEA Hydrogen.
Formålet med deltagelsen er at få adgang til arbejdsgrupper og netværk inden for specifikke faglige områder af relevans for den danske udvikling på brintområdet. Dansk deltagelse i IEA Hydrogen sker via:
• Deltagelse i Executive Committee• Facilitere dansk deltagelse i arbejdsgrupper • Formidling af resultater fra IEA Hydrogen
IEA Hydrogen arbejder iht. femårige strategiplaner, som skal godkendes af IEA’s videnskabelige komite (CERT).
IEA Hydrogen er en selvstændig organisation, som arbejder under IEA’s paraply.
DGC varetager det danske medlemskab pva. Energistyrelsen med støtte fra EUDP
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
IEA Hydrogen Members - Executive Committee (July 2017)
21 Countries + European Commission + UN + 4 Sponsors
Europe
Asia - Pacific
JapanMs Hayasaka
KoreaDr Y. Shul
AustraliaDr Craig Buckley
New ZealandDr J. Leaver
Oceania
European CommissionDr Marc Steen
UNIDO (UN)TBA
North America United StatesDr Eric Miller
Middle EastIsraelDr Igor Derzy
NOWDr Klaus Bonhoff
IA HysafeDr T. JordanSponsors Shell
Dr C. Patil
ItalyDr Angelo Moreno
BelgiumMr Adwin Martens
LithuaniaDr R. Urbonas
The NetherlandsDr Evert Everts
FranceMr Paul Lucchese
GreeceDr Elli Varkaraki
GermanyMr J.-F. Hake
DenmarkMr Jan Jensen
FinlandDr Michael Gasik
SwitzerlandDr Stefan Oberholzer
SwedenDr Bengt Ridell
SpainMr A. Garcia-Conde
NorwayMr Trygve U. Riis
United KingdomMr Y. Lethbridge
PRC
Dr. P. Chen &
Dr. Lijun Jiang
Southern Company Dr N. Meeks
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
Rammer og temaer for samarbejdet IEA Hydrogen
Collaborative RD&D
Hydrogen production
Hydrogen storage
Integrated hydrogen systems
Integration of hydrogen in existing infrastructure
Analysis
Technical progress and optimization
Market preparation and deployment
Support in political decision-making
Understanding, Awareness and Acceptance
Information dissemination
Safety
Outreach
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
IEA Hydrogen Task Portfolio October 2017
N
RNAME 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 STATUS
18 Integrated Systems Evaluation completed
19 Hydrogen Safety completed
21 Biohydrogen completed
21 Bioinspired and Biological Hydrogen Production completed
22 Fundamental & Applied H2Storage Materials Development completed
23 Small-Scale Reformers for on-Site H2Supply completed
24 Wind Energy and Hydrogen Production (Electrolysis) completed
25 High Temperature Production of Hydrogen completed
26 Advanced Materials for Waterphotolysis with H2 completed
27 Near-Term Market Routes to H2via Co-Gasification with Biomass completed
28 Large-Scale Hydrogen Delivery Infrastructure completed
29 Distributed and Community Hydrogen (DISCO H2) completed
30 Global Hydrogen Analysis completed
31 Successor Hydrogen Safety Task completed
32 H2Based Energy Storage current
33 Local H2Supply for Energy Applications completing
34 BioH2 for Energy & Environment (Successor to Task 21) current
35 Renewable Hydrogen (Super Task) current
36 Life Cycle Sustainability Assessment (LCSA) current
37 Safety (Successor to Task 31) current
38 Power-to-Hydrogen and Hydrogen to X current
39 Hydrogen in Marine Transport current
6AN IMPLEMENTING AGREEMENT OF THE INTERNATIONAL ENERGY AGENCY
Hydrogen Production
Task 21: BioHydrogen (2005-2010);
Task 21 bis: Bio-Inspired & BioHydrogen 2010-2014
Hydrogen dark fermentations
Photobiological H2 production systems
Bio-inspired systems
Basic Studies of Light-Driven BioHydrogen Production
Electrochemical Systems
Task 25: High temperatur production of hydrogen (2007-2011)
Subtask 1 – State of art
Subtask 2 – Processes evolution
Subtask 3 – Deployment strategy
Task 34: BioH2 for Energy & Environment (2014-2017)
BioHydrogen production (Dark Fermentation and
Bioelectrolysis; light-drive BioHydrogen production; Enzymatic
and Bio-inspired Molecular Systems
Subtask 2 – Applied Research and Biohydrogen Production
Task 35 Renewable Hydrogen Production (2014-2017)Subtask 1 – Renewable Electrolysis
Subtask 2 – Photoelectrochemical Solar Water-Splitting
Subtask 3 – Solar High Temperature Thermochemical Cycles
Bio-inspired
Photoelectrochemical
High temperatur
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
Power to Hydrogen and Hydrogen to Xor Hydrogen in the Energy System, extension of Smart Grid ?
A major Challenge
Power to Hydrogen: low cost decarbonized electricity (not only « surplus »)
Hydrogen to X (Industry, Mobility, Stationnary, Power)
Injection into gas grid: H2 or Synthetic methane ?
More than 50 demonstrations project around the world, some at scale
IEA HIA Task 38Power-to-Hydrogen and Hydrogen-to-X:
System Analysis of the techno-economic, legal and regulatory conditions
8AN IMPLEMENTING AGREEMENT OF THE INTERNATIONAL ENERGY AGENCY
Key Numbers and Outcomes 2009–2015
HIA members at End of Term 25
R&D tasks active during the period 19
Total person years of support to HIA > 685
Publications and articles
– HIA summary publications 31
– HIA expert publications 2609
Presentations
– HIA overview – internal IEA 64
– HIA overview – external IEA 114
– HIA expert presentations 1558
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
CURRENT OUTREACH
2015Annual Report
Strategic Plan 2015-2020
Final Report Task 30 Subtask A
IEA HIA Newsletter
Final ReportTask 28
Final ReportTask 29 Subtask 3
Final ReportTask 29 Subtask 4 IEA H2 Technology
Roadmap
http://ieahydrogen.org/
AN INTERNATIONAL ENERGY AGENCY TECHNOLOGY COLLABORATION PROGRAMME
Thank you from IEA Hydrogen A premier global resource for technical expertise in H2 RD&D
Contact:
Paul LuccheseExCo [email protected]
Mary-Rose de Valladares General [email protected]+1 301 634 7423
Jan K Jensen, DGCDansk ExCo repræsentant i IEA [email protected]+45 4040 4614
The “Energy Observer” catamaran, which employs a fuel cell using hydrogen produced by electrolysis of seawater, launched this year off coast of Saint Malo, France for a 6 year round-the-world voyage.