Achievements of the EC network of excellence HYSAFE
Thomas Jordan
(1)
,
Paul Adams
(2)
,
Inaki Azkarate
(3)
,
Daniel Baraldi
(4)
,
Herve Barthelemy
(5)
,
Luc Bauwens
(6)
,
Alain Bengaouer
(7)
,
Sile Brennan
(8)
,
Marco Carcassi
(9)
,
Arief Dahoe
(8)
,
Norbert Eisenreich
(10)
,
Angunn Engebo
(11)
,
Espen Funnemark
(11)
,
Eduardo Gallego
(12)
,
Andrey Gavrikov
(13)
,
Erling Haland
(11)
,
Anne Marit Hansen
(14)
,
Gerd Petra Haugom
(11)
,
Stuart Hawksworth
(15)
,
Olaf Jedicke
(1)
,
Armin Kessler
(16)
,
Alexei Kotchourko
(1)
,
Suresh Kumar
(17)
,
Gesa Langer
(16)
,
Stefan Ledin
(15)
,
Dmitriy Makarov
(8)
,
Alessia Marangon
(9)
,
Frank Markert
(18)
,
Prankul Middha
(19)
,
Vadimir Molkov
(8)
,
Sandra Nilsen
(14)
,
Efthymia Papanikolaou
(20)
,
Lionel Perrette
(21)
,
Ernst-Arendt Reinecke
(22)
,
Ulrich Schmidtchen
(23)
,
Pierre Serre-Combe
(7)
,
Michael Stocklin
(24)
,
Aurélie Sully
(4)
,
Andrzej Teodorczyk
(25)
,
Delphine Tigreat
(21)
,
Alexander Venetsanos
(20)
,
Karl Verfondern
(22)
,
Nico Versloot
(26)
,
Ana Vetere
(4)
,
Mafred Wilms
(22)
,
Nikolay Zaretskiy
(13)
1
Forschungszentrum Karlsruh
2 Volvo Technology Corporation
3 Energy Unit
4 Institute for Energy [Petten]
5 Air Liquide [Siège Social]
6 University of Calgary
7 CEA - Commissariat à l'énergie atomique et aux énergies alternatives
8 HySAFER Centre
9 DIMNP
10 INE - Institut für Nukleare Entsorgung
11 AS Energy Solutions
12 Escue a Técnica Superior de Ingenieros Industria es
13 Kurchatov Institute
14 StatoilHydro
15 Health and Safety Laboratory
16 Fraunhofer ICT - Fraunhofer Institute for Chemical Technology
17 Fire division
18 IKET - Institute for Nuclear and Energy Technologies [Eggenstein-Leopoldshafen]
19 Gexcon AS
20 Environmental Research Laboratory
21 INERIS - Institut National de l'Environnement Industriel et des Risques
22 FZJ - Forschungszentrum Jülich GmbH | Centre de recherche de Jülich | Jülich Research Centre
23 Federal Institut for Material Research and Testing
24 Forschung and Technik GmbH
25 Warsaw University of Technology [Warsaw]
26 TNO - The Netherlands Organisation for Applied Scientific Research
2 Volvo Technology Corporation
3 Energy Unit
4 Institute for Energy [Petten]
5 Air Liquide [Siège Social]
6 University of Calgary
7 CEA - Commissariat à l'énergie atomique et aux énergies alternatives
8 HySAFER Centre
9 DIMNP
10 INE - Institut für Nukleare Entsorgung
11 AS Energy Solutions
12 Escue a Técnica Superior de Ingenieros Industria es
13 Kurchatov Institute
14 StatoilHydro
15 Health and Safety Laboratory
16 Fraunhofer ICT - Fraunhofer Institute for Chemical Technology
17 Fire division
18 IKET - Institute for Nuclear and Energy Technologies [Eggenstein-Leopoldshafen]
19 Gexcon AS
20 Environmental Research Laboratory
21 INERIS - Institut National de l'Environnement Industriel et des Risques
22 FZJ - Forschungszentrum Jülich GmbH | Centre de recherche de Jülich | Jülich Research Centre
23 Federal Institut for Material Research and Testing
24 Forschung and Technik GmbH
25 Warsaw University of Technology [Warsaw]
26 TNO - The Netherlands Organisation for Applied Scientific Research
Herve Barthelemy
- Fonction : Auteur
- PersonId : 20904
- IdHAL : herve-barthelemy
- ORCID : 0000-0003-2902-1094
- IdRef : 103529446
Résumé
In many areas European research has been largely fragmented. To support the required integration and to focus and coordinate related research efforts the European Commission created a new instrument, the Networks of Excellences (NoEs). The goal of the NoE HySafe has been to provide the basis to facilitate the safe introduction of hydrogen as an energy carrier by removing the safety related obstacles. The prioritisation of the HySafe internal project activities was based on a phenomena identification and ranking exercise (PIRT) and expert interviews. The identified research headlines were "Releases in (partially) confined areas", "Mitigation" and "Quantitative Risk Assessment". Along these headlines existing or planned research work was re-orientated and slightly modified, to build up three large internal research projects "InsHyde", "HyTunnel", and "HyQRA". In InsHyde realistic indoor hydrogen leaks and associated hazards have been investigated to provide recommendations for the safe use of indoor hydrogen systems including mitigation and detection means. The appropriateness of available regulations, codes and standards (RCS) has been assessed. Experimental and numerical work was conducted to benchmark simulation tools and to evaluate the related recommendations. HyTunnel contributed to the understanding of the nature of the hazards posed by hydrogen vehicles inside tunnels and its relative severity compared to other fuels. In HyQRA quantitative risk assessment strategies were applied to relevant scenarios in a hydrogen refuelling station and the performance was compared to derive also recommendations. The integration process was supported by common activities like a series of workshops and benchmarks related to experimental and numerical work. The networks research tools were categorised and published in online catalogues. Important integration success was provided by commonly setting up the International Conference on Hydrogen Safety, the first academic education related to hydrogen safety and the Hydrogen Safety Handbook. Finally, the network founded the International Association for Hydrogen Safety, which opens the future networking to all interested parties on an international level.