The IEA HIA 2009-2020: Themes Collaborative RD&D that advances - - PowerPoint PPT Presentation

The IEA HIA 2009-2020:

Themes

Collaborative RD&D that advances hydrogen science and technology

Hydrogen production Hydrogen storage Integrated hydrogen systems Integration of hydrogen in existing infrastructure

Understanding, Awareness and Acceptance that fosters technology diffusion and commercialization

Information dissemination Safety Outreach

Analysis that positions hydrogen

Technical progress and optimization Market preparation and deployment Support in political decision-making

3 AN IMPLEMENTING AGREEMENT OF THE INTERNATIONAL ENERGY AGENCY

Task Portfolio

NR NAME DURATION STATUS 18 Integrated Systems Evaluation 2004‒2009 completed 19 Hydrogen Safety 2004‒2010 completed 21 Biohydrogen 2005‒2010 completed 21 Bioinspired and Biological Hydrogen Production 2010‒2014 completed 22 Fundamental & Applied H2 Storage Materials Development 2006‒2012 completed 23 Small-Scale Reformers for on-Site H2 Supply 2006‒2011 completed 24 Wind Energy and Hydrogen Production (Electrolysis) 2006‒2011 completed 25 High Temperature Production of Hydrogen 2007‒2011 completed 26 Advanced Materials for Waterphotolysis with H2 2008‒2013 completed 27 Near-Term Market Routes to H2 via Co-Gasification with Biomass 2009‒2011 completed 28 Large-Scale Hydrogen Delivery Infrastructure 2010‒2013

• ngoing

29 Distributed and Community Hydrogen (DISCO H2) 2011‒2013

• ngoing

30 Global Hydrogen Analysis 2010‒2013

• ngoing

31 Successor Hydrogen Safety Task 2010‒2013 completed 32 H2 Based Energy Storage 2013‒2016

• ngoing

33 Local H2 Supply for Energy Applications 2013‒2016

• ngoing

34 BioH2 for Energy & Environment (Successor to Task 21) 2014‒2017 approved 35 Renewable Hydrogen 2014‒2017 approved 36 Life Cycle Sustainability Assessment (LCSA) (Successor Task 30) 2014-2017 approved 37 Safety 2015-2018 approved 38 Power-to-Gas 2015-2018 APPROVED Marine Sector In Definition

IE IEA/HIA Task 38

Power-to to-Hydrogen an and Hydrogen-to to-X: System Anal alysis is of

• f techno-

economic, le legal al an and regula latory ry con

• nditions

Paul Lucchese, ExCo Father and Mentor of the Task - CEA Alain Le Duigou - CEA Christine Mansilla – CEA

CEN CEN-CENELEC WG SF SFEM Meetin ing 4 4 th th may 2016 Br Brussels ls

IEA – HIA Task 38 Power-to-Hydrogen and Hydrogen-to-X: System Analysis of the techno-economic, legal and regulatory conditions

The “Power-to-hydrogen” concept means that hydrogen is produced via low carbon electricity electrolysis Electricity supply can be either:

• On-Grid
• Off-grid
• r Hybrid systems

With particular attention devoted to:

• Provision of services to the gris
• Characterization of hydrogen’s relevance for energy storage.

“Hydrogen-to-X” implies that the hydrogen supply concerns a large portfolio of uses:

• Transport/mobility : hydrogen for fuel cells;
• Gas grid (“Power to gas”): Mixing with natural gas grid or methanation?;
• Industry (refinery, steel, ammonia, synfuels, etc.);
• Re-electrification: Fuel cell, Gas turbine.

Scope of the Task 38

IEA – HIA Task 38 Power-to-Hydrogen and Hydrogen-to-X: System Analysis of the techno-economic, legal and regulatory conditions

To provide a comprehensive understanding of the various technical and economic pathways for power-to-hydrogen applications in diverse situations; To provide a comprehensive assessment of existing legal frameworks; To provide business developers and policy makers with general guidelines and recommendations that enhance hydrogen system deployment in energy markets. A final objective will be to develop hydrogen visibility as a key energy carrier for a sustainable and smart energy system, within a 2 or 3 horizon time frame: 2020, 2030 and 2050, for example.

Objectives of the Task 38

IEA – HIA Task 38 Power-to-Hydrogen and Hydrogen-to-X: System Analysis of the techno-economic, legal and regulatory conditions

Four years / two phases 1/General state of the art survey of

• existing portfolio of studies on techno-economic and business cases

and smart Analysis

• existing legal framework and macro-economic impacts, including

demo/deployment projects;

2/Detailed specific case studies, based on detailed targets

defined during the first phase, together with elaboration of legal and regulatory conditions, policy measures, and general guidelines for business developers and policy makers as well as public and private financial mechanisms and actors.

Inside Task 38: Structure and Task Forces

Subtasks

2 Mapping and Review / analysis of existing demo project 3A Review/analysis the existing economic studies on Power-to-Hydrogen 3B Review of different existing legal frameworks, policy measures 4 Systemic approach and macro economic impact analysis 5 Specific case studies

Interfaces with other projects and initiatives: IEA/HIA tasks (36, 33 …), IEA/RETD, IEA secretariat, organisations (EASE, IPHE, NOW, …), CEN/CENELEC WG

state of the art Detailed case studies Task Forces

Methodology

(screening sheets)

Definitions Taxonomy Services to the grid Data Electrolyzers’ data

Common basis

for a common work

9

Task 38: major deliverables for phase 1

Reference document (ST1) Semi annual reports (ST1, with the help of the partners) Intermediate Report and Data base on state of the art of demonstration projects (ST 2) Intermediate Report on state of the art of techno-economic studies (ST 3A) Intermediate Report on state of the art of legal framework (ST 3B) Intermediate Report on selection of data base and case studies Global synthesis (ST1 / coordinators and all the partners): short summary and reference to the Intermediate Reports, results of the case studies, guidelines for business developers, recommendations for policy makers.

10

Subtasks 2016 2017 2018 2019 2020 2021 2022

ST1 ST2 ST3A ST3B ST4 ST5

Deliverables Meetings

Task 38 preliminary timeline

KO meeting 6th month meeting Mid-term meeting END meeting Spring and Fall meetings

1 2 3 1 : organization / methodology / common vision of the Task 2 : general state of the art survey 3 : detailed specific cases studies 4 years ? More ?

11

12

Subtask 1 / coordination

Management team today: Paul Lucchese and 2 co-Operating agents, Alain Le Duigou and Christine Mansilla from CEA laboratory I-tésé: Institute for Technico-economics of Energy Systems (Support contract with French agency

Ademe for at least 18 months)

Organization of the Kick-Off meeting in Paris on January 28th 2016

30 participants from 13 countries (today ca. 40 people involved)

• To achieve a common vision of the Task objectives and structure
• First exchange on participants’ role and subtask leaders
• Identify the next steps
• Schedule next meeting

Discussions and debates about:

• The scope and objectives of the Task (« low carbon », « power » to H2,

H2 to « X », …)

• The issues, topics, markets to consider

First arrangement of the SubTasks and Task Forces contributors and leaders Launching of a « Reference Document » that describes the Task, the

• rganization, and the SubTasks and Task Forces specifications

Participants and possible participants to the Task

France Germany Denmark Sweden Norway The Netherlands Belgium Romania Bulgaria UK Spain Australia USA Italy Austria Switzerland Japan Korea ? Canada ? Non OECD: Argentina ? China ?

Participants today Possible participants

14

SubTasks: contributors and leaders

SubTask Contributors Leader

2 Mapping and Review / analysis of existing demo project ICSI, JRC, FCH JU, DGC, SWECO, HA, Hydrogenics, DBI, CEA, IFE ? UCL 3A Review/analyse the existing economic studies on Power to Hydrogen CEA, Hydricity, Imperial College, ICSI, DMU, DGC, SWECO, HA, Hydrogenics, Air Liquide, FZJ, Southern Company , IFE ? FZJ 3B Review

• f

different existing legal frameworks, policy measures ICSI, Hydrogenics, Southern Company, CEA, BAS JRC 4 Systemic approach and macro economic impact analysis Hydricity, Imperial College, ICSI, DMU, JRC, Air Liquide, SWECO ? 5 Specific case studies CEA, Hydricity, Imperial College, ICSI, UCL, HA, Air Liquide, FZJ, Southern Company, SWECO ?

Task Forces: contributors and leaders

Task Forces Contributors Leader

M3A Methodology ST 3A CEA, Hydricity, Imperial College, DMU, JRC, SWECO, FZJ FZJ Def Definitions Hydricity, Imperial College, ISCI, CEA, Engie ? SG Services to the Grid CEA, DMU, Air Liquide, Clean Horizon ?, AREVAH2Gen ?, ITM ? D Data Imperial College, JRC, CEA ED Electrolysers’ Data Imperial College, UCL, Hydrogenics, Areva H2 Gen Air Liquide, IFE ?, JRC ?, ITM ? UCL

Subtask 3A and 3B / already done

Objective: publish a reference document “labelled” Task 38 Support of Bulgarian Academy of Science : Marin Pandev (in Paris 2 Months late 2015) PhD Creation and work of a first methodology group (M 3A)

Definition of a first methodology sheet for literature review First list of studies gathered / more than 200 documents today, including focus on

native language studies ST1: Creation (CEA) of a secured Internet site documents, data, minutes, forum, …

• Proposal of a screening sheet as a common analysis grid of the studies to

be discussed and agreed upon

• 2 levels analysis grid: quick scan / thorough reading
• First Web Seminar in May

Communication

First actions engaged: task summary, participation to the WHEC

WHEC – Dedicated IEA HIA Session

Under the topic "Countries Strategies/Associations/Assessments"

Semi-annual reports, project reports Public internet site planned Reviews for publications Conferences communications

…

… and the current presentation !

RE-P2G for non-individual transport

Selection of technologies and policies

18 AN IMPLEMENTING AGREEMENT OF THE INTERNATIONAL ENERGY AGENCY

Potential Collaborations/Synergies with CEN- CENELEC Working Group

ST2 Establishment of Data base on Demo project (world wide) ST3B : Review of different existing legal frameworks, policy measures TF « Terminology/Taxonomy » Others ?

18

20

Backup

21

Participants to the Task, Kick Off meeting attendance

Mary-Rose Valladares mvalladares@ieahia.org IEA HIA Denis Thomas dthomas@hydrogenics.com Hydrogenics Everett Anderson eanderson@protononsite.com Proton on site Noah Meeks ndmeeks@southernco.com Southern Company Alain Le Duigou alain.le-duigou@cea.fr CEA Christine Mansilla christine.mansilla@cea.fr CEA Benedicte Champel benedicte.champel@cea.fr CEA Paul Lucchese paul.lucchese@cea.fr CEA Michael Salomon michael.salomon@cleanhorizon.com Clean energy Lucas Bertrand lb@itm-power.com ITM Jean Paul Reich jean-paul.reich@gdfsuez.com ENGIE Fabien Aupretre fabien.aupretre@arevah2gen.com AREVA H2GEN Claude Heller Claude.heller@airliquide.com Air Liquide Louis Sentis louis.sentis@airliquide.com Air Liquide Luc Bodineau Luc.bodineau@ademe.fr ADEME Robert Dickinson robert.dickinson@hydricity.com.au Hydricity Marcel Weeda weeda@ecn.nl ECN Michael Ball Michael.ball@shell.com Shell Sheila Samsatli s.samsatli@imperial.ac.uk Imperial College Nouri John Samsatli n.samsatli@ic.ac.uk Imperial College Marcus Newborough mn@itm-power.com ITM Pierluigi Mancarella p.mancarella@manchester.ac.uk University of Manchester Mihai Balan mihai.balan@icsi.ro ICIT Esther Albertin ealbertin@hidrogenoaragon.org FHA Jesus Simon jsimon@hidrogenoaragon.org FHA Marin Pandev pandeff@cc.bas.bg ; pandeff@gmail.com BAS Eveline Weidner Eveline.WEIDNER@ec.europa.eu JRC, IPTS Nikos Lymberopoulos Nikolaos.Lymperopoulos@fch.europa.eu FCH JU Bengt Ridell bengt.ridell@sweco.se Energy Systems, Sweco Joris Proost joris.proost@uclouvain.be UCL Louvain Henry Iskov his@dgc.dk DGC Andreas Reiner Andreas.Reiner@siemens.com SIEMENS Martin Robinius m.robinius@fz-juelich.de FZJ Anja Wehling Anja.Wehling@dbi-gut.de DBI Deutche Brennstoff Institute Martin Kirkengen martin.kirkengen@ife.no IFE

USA FR AUS NL UK RO ES BG EU SE BE DK D NOR

22

• Coord. ST 1 / CEA

ST 2 / UCL (coord. J Proost) ICSI (M Balan) JRC (E Weidner) FCH JU (N Lymberopoulos) DGC (H Iskov) SWECO (B Ridell) HA (E Albertin) Hydrogenics (D Thomas) DBI (A Wehling) CEA (A Le Duigou) IFE (M Kirkengen) ? ST 3A (coord. ) CEA (B Champel) CEA (C Mansilla) Hydricity (R Dickinson) Imperial College (S & N J Samsatli) ICSI (M Balan) DMU (R Gammon) DGC (H Iskov) SWECO (B Ridell) HA (E Albertin, J Simon) Hydrogenics (D Thomas) Air Liquide (S Valentin) FZJ (M Robinius) Southern Company (N Meeks) IFE (M Kirkengen) ? ST 4 (coord. ) Hydricity (R Dickinson) Imperial College (S & N J Samsatli) ICSI (M Balan) DMU (R Gammon) JRC (A Zucker) Air Liquide (J André) SWECO (B Ridell) ? ST 3B / JRC (coord. E Weidner) ICSI (M Balan) Hydrogenics (D Thomas) Southern Company (N Meeks) CEA (C Mansilla) BAS (M Pandev) ? ST5 (coord. ) CEA (B Champel) CEA (A Le Duigou) Hydricity (R Dickinson) Imperial College (S & N J Samsatli) ICSI (M Balan) UCL (J Proost) HA (J Simon) Air Liquide (C Heller) FZJ (M Robinius) Southern Company (N Meeks) SWECO (B Ridell) ?

SubTasks

contributors and leaders

Demo projects T.E. Studies Legals and policies Macro / eco impacts Case studies

SG – leader ……… CEA (B Champel) CEA (C Mansilla) DMU (R Gammon) Air Liquide (J André) Clean Horizon (M Salomon) ? AREVAH2Gen (F Auprêtre) ? ITM (M Newborough) ? T – leader ……. Hydricity (R Dickinson) Imperial College (S & N J Samsatli) ISCI (M Balan) CEA (C Mansilla) Engie (J-P Rêche) M3A – leader M. Robinius CEA (B Champel) CEA (C Mansilla) Hydricity (R Dickinson) Imperial College (S & N J Samsatli) DMU (R Gammon) JRC (E Weidner) SWECO (B Ridell) FZJ (M Robinius) D – leader ……… Imperial College (S Samsatli) JRC (E Weidner) CEA (A Le Duigou) ED – leader ……… Imperial College (S Samsatli) UCL (J Proost) Hydrogenics (D Thomas) Air Liquide (S Valentin) IFE (M Kirkengen) ? JRC (E Weidner) ? ITM (M Newborough) ?

Task Forces

contributors and leaders

Services to the Grid Data Electrolysers’ Data Methodology ST 3A Taxonomy