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Topic1
HySafe partnerHySafe-Advisory Council
Company/InstitutionHøgskolen i Telemark-TF / Tel-Tek
AddressKjolnes Ring 56
City/AreaPorsgrunn
Postal CodeNO-3918
CountryNorway
Telephone/Fax+47(0)35575232/+47(0)35575000
Emaildag.bjerketvedt@hit.no
URLhttp://www-pors.hit.no
ResearcherVegeir Knudsen
Research TopicHydrogen gas explosions in pipelines - Modelling and Experimental Investigations
Supervisor(s)Prof. Dag Bjerketvedt
AbstractMain objective is to investigate flame propagation and Detonation Defagration Transition (DDT) in pipes with premixed hydrogen-air. A one Dimensional (1D) numerical code based on the Random Choice Method (RCM), will be used for the simulations of the flow and flame propagation in the pipe. Experiments with hydrogen-air will be performed with focus on flame acceleration and DDT.
Relevance to the HySafe Activity MatrixV1 to V4

Topic2
HySafe partnerHySafe-Advisory Council
Company/InstitutionHøgskolen i Telemark-TF / Tel-Tek
AddressKjolnes Ring 56
City/AreaPorsgrunn
Postal CodeNO-3918
CountryNorway
Telephone/Fax+47(0)35575232/+47(0)35575000
Emaildag.bjerketvedt@hit.no
URLhttp://www-pors.hit.no
ResearcherOle Kristian Sommersel
Research Topic Flame Propagation in Inhomogeneous Hydrogen-Air Clouds
Supervisor(s)Prof. Dag Bjerketvedt
AbstractThe main activity will be tests in small and large-scale geometries with flame propagation in inhomogeneous hydrogen–air clouds. The test will include H2 leaking from high pressure reservoirs in partly confined and unconfined geometries with focus on: (1) Ignition in inhomogeneous H2 gas clouds and (2) Gas explosions (flame propagation) in inhomogeneous H2 gas clouds, including Deflagration-to-Detonation Transition (DDT).
Relevance to the HySafe Activity MatrixV1 to V4

Topic3
HySafe partnerHySafe-Advisory Council
Company/InstitutionHøgskolen i Telemark-TF / Tel-Tek
AddressKjolnes Ring 56
City/AreaPorsgrunn
Postal CodeNO-3918
CountryNorway
Telephone/Fax+47(0)35575232/+47(0)35575000
Emaildag.bjerketvedt@hit.no
URLhttp://www-pors.hit.no
ResearcherKnut Vaagsaether
Research TopicModelling of fuel-air gas explosion with hydrogen and natural gas
Supervisor(s)Prof. Dag Bjerketvedt
AbstractThe objective of this project is to develop a 2D and 3D numerical code for gas explosion simulations. The code is based on the 2. order total variation diminishing (TVD) flux limiter centred scheme (FLIC). The equations solved are the Euler equations with an energy source term, these equations are LES filtred. The combustion model used is a reactive Riemann solver for infinitely thin flames. A turbulence model for the turbulent kinetic energy is used to model the subgrid turbulence. The flame propagation is handled by the G-equations for turbulent flames. The FLIC scheme is chosen for its simplicity and its computational speed compared to upwind TVD schemes. To illustrate the performance of the code, results from numerical experiments will be compared with results from physical experiments with hydrogen-air mixtures. The code will be developed to handle detonations and deflagration to detonation transition (DDT). The ability of the code to simulate detonations will be validated against numerical experiments with other codes.
Relevance to the HySafe Activity MatrixV1 to V4

Topic4
HySafe partnerFZJ
Company/InstitutionForschungszentrum Juelich GmbH
AddressISR-2
City/AreaJuelich
Postal Code52425
CountryGermany
Telephone/Fax+49(0)2461615530/+49(0)2461616856
Emaile.reinecke@fz-juelich.de
URLhttp://www.fz-juelich.de
ResearcherStephan Kelm
Research TopicExperimental and theoretical studies on innovative catalytic recombiners
Supervisor(s)Dr. Ernst-Arndt Reinecke
AbstractNumerous containments of European light water reactors (LWR) are equipped with passive auto-catalytic recombiners (PAR) for the removal of hydrogen generated during a severe accident. PAR make use of the fact that hydrogen and oxygen react exothermally on catalytic surfaces generating steam and heat even below conventional ignition concentrations and temperatures. A vital drawback of existing devices is the unintended ignition of the gaseous mixture due to overheating of the catalyst elements. In the scope of the project new designs are investigated in order to enhance the removal of the reaction heat combining the PAR with cooling devices. The work plan includes experimental and theoretical studies.
Relevance to the HySafe Activity MatrixV3

Topic5
HySafe partnerFZJ
Company/InstitutionForschungszentrum Juelich GmbH
AddressISR-2
City/AreaJuelich
Postal Code52425
CountryGermany
Telephone/Fax+49(0)2461615530/+49(0)2461616856
Emaile.reinecke@fz-juelich.de
URLhttp://www.fz-juelich.de
ResearcherChristoph Granzow
Research TopicDevelopment of passive cooled catalytic recombiners
Supervisor(s)Dr. Ernst-Arndt Reinecke
AbstractNumerous containments of European light water reactors (LWR) are equipped with passive auto-catalytic recombiners (PAR) for the removal of hydrogen generated during a severe accident. PAR make use of the fact that hydrogen and oxygen react exothermally on catalytic surfaces generating steam and heat even below conventional ignition concentrations and temperatures. A vital drawback of existing devices is the unintended ignition of the gaseous mixture due to overheating of the catalyst elements. In the scope of the project a PAR design is developed that combines the catalyst elements with passive cooling devices. The work plan includes experimental and theoretical studies.
Relevance to the HySafe Activity MatrixV3

Topic6
HySafe partnerFZJ
Company/InstitutionForschungszentrum Juelich GmbH
AddressISR-2
City/AreaJuelich
Postal Code52425
CountryGermany
Telephone/Fax+49(0)2461615530/+49(0)2461616856
Emaile.reinecke@fz-juelich.de
URLhttp://www.fz-juelich.de
ResearcherUlrich Schwarz
Research TopicExperimental investigations on catalytic recombiners
Supervisor(s)Dr. Ernst-Arndt Reinecke
AbstractNumerous containments of European light water reactors (LWR) are equipped with passive auto-catalytic recombiners (PAR) for the removal of hydrogen generated during a severe accident. PAR make use of the fact that hydrogen and oxygen react exothermally on catalytic surfaces generating steam and heat even below conventional ignition concentrations and temperatures. In the scope of the project experiments at the REKO facilities are conducted in order to achieve a profound understanding of the processes inside a recombiner, such as reaction kinetics or heat and mass transport phenomena. On the one hand, the experimental data are needed for the assessment of the operational behaviour and hydrogen conversion efficiency of PAR. On the other hand, drawbacks of existing devices e.g. unintended ignition of the gaseous mixture due to overheating of the catalyst are studied in order to propose optimised PAR designs.
Relevance to the HySafe Activity MatrixV3

Topic7
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherMarta Michalczuk
Research TopicExperimental investigations on catalytic recombiners
Supervisor(s)Prof. A. Teodorczyk
AbstractExperiments were preformed to investigate the diffusion ignition process that occurs when hot inert gas (argon or nitrogen) is injected into the stoichiometric hydrogen-oxygen mixture at the test section. Te inert gas is heated behind the reflected shock wave and then injected into the test section through the hole of 8 mm in diameter. An increase of the initial pressure of the combustible mixture in the test section from 0.2 to 0.6 MPa resulted in decrease of the minimum temperature of injected gas causing ignition from 1650 K to 850 K. The results of experiments indicate that ignition occurs when the static enthalpy of injected mass of inert gas exceeds some critical value. The mechanism of ignition process was also studied by high speed schlieren photography.
Relevance to the HySafe Activity MatrixV2, H1-H3

Topic8
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherJanusz Opechowski
Research TopicDevelopment and Validation of Direct Monte-Carlo Model for Simulation of Detonation in Hydrogen-Air
Supervisor(s)Prof. A. Teodorczyk
AbstractThe Direct Monte-Carlo Simulation (DMCS) technique has proven to be an excellent tool for simulating flows in various geometrical configurations – particularly in narrow channels. It offers also a possibility of taking into account the relaxation phenomena and chemical reactions, these unfortunately increase complexity of the computer programs and the necessary computing times. However, in the case of detonation, considerable simplifications can be made thanks to the fact, that in a detonation wave combustion proceeds at high temperature and at very high speed, therefore all relaxation processes at the molecular level may be disregarded. The only important factor, that remains, is the produced thermal energy.
Relevance to the HySafe Activity MatrixV2-V3, H1-H3, H5

Topic9
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherAndrzej Dabkowski
Research TopicDetonation Arrester Performance for Hydrogen-Air Mixtures
Supervisor(s)Prof. A. Teodorczyk
AbstractExperimental data on the feasibility of a specific detonation arrester are provided in this study. This new type of arrester consists in a series of segments filled with shot. The data are aimed at demonstrating the pertinent use of this type of arrester for the safety in the chemical and oil industry. The experimental results show that this device is appropriate for quenching of flame and detonation in hydrogen-air mixtures.
Relevance to the HySafe Activity MatrixV2-V3, H1-H3, H5

Topic10
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
Researcher 
Research TopicTransmission of Hydrogen-Air Detonation through Narrow Tubes
Supervisor(s)Prof. A. Teodorczyk
AbstractExperimental studies were performed on transmission of detonation wave in hydrogen-air mixture through single and multiple tubes of various diameter and length. The data are aimed at demonstrating the influence of walls on momentum and heat losses during detonation propagation and its effects on quenching of flame and detonation in hydrogen-air mixtures.
Relevance to the HySafe Activity MatrixV2-V3, H1-H3, H5

Topic11
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherMichal Bratowski
Research TopicExperimental and numerical simulations of detonation propagation in hydrogen-air mixtures of nonuniform composition
Supervisor(s)Prof. A. Teodorczyk
AbstractExperimental studies and numerical simulations are conducted on the problems of detonation wave propagation in hydrogen-air media with concentration gradients. The aim of the studies was to establish critical conditions for detonation transmission.
Relevance to the HySafe Activity MatrixV2-V3, H1-H3, H5

Topic12
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherBartosz Olzak
Research TopicExperimental and numerical studies on critical tube diameter for detonation in hydrogen-air mixtures of nonuniform composition
Supervisor(s)Prof. A. Teodorczyk
AbstractExperimental studies and numerical simulations are conducted on the problems of detonation wave expansion from the tube into larger volume in hydrogen-air media with concentration gradients. The aim of the studies was to establish critical conditions for detonation transmission.
Relevance to the HySafe Activity MatrixV2-V3, H1-H3, H5

Topic13
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherPiotr Jaworski
Research TopicNumerical simulation of diffusion ignition of underexpanded hydrogen jet in air
Supervisor(s)Prof. A. Teodorczyk
AbstractThe objective of this project is to perform systematic numerical simulations of supersonic hydrogen jet in air to find critical conditions for ignition.
Relevance to the HySafe Activity MatrixV1-V4

Topic14
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
Researcher 
Research TopicThe objective of this project is to perform systematic experimental and numerical studies of the process of flame acceleration and DDT in methane-hydrogen-air mixtures at atmospheric conditions.
Supervisor(s)Prof. A. Teodorczyk
AbstractThe objective of this project is to perform systematic experimental and numerical studies of the process of flame acceleration and DDT in methane-hydrogen-air mixtures at atmospheric conditions.
Relevance to the HySafe Activity MatrixV1-V4

Topic15
HySafe partnerWUT
Company/InstitutionPolitechnika Warszawska (Warsaw University of Technology)
Addressul. NOWOWIEJSKA 25
City/AreaWarsaw
Postal Code00-665
CountryPoland
Telephone/Fax+48(0)226605277/+48(0)228250565
Emailateod@itc.pw.edu.pl
URLhttp://zsl.itc.pw.edu.pl/index.html
ResearcherAdam Malczynski
Research Topic Numerical simulation of hydrogen release and mixing in the garage.
Supervisor(s)Prof. A. Teodorczyk
AbstractThe objective of this project is to perform systematic numerical studies of the process of hydrogen release and mixing in the garage and to find the influence of natural and forced ventilation.
Relevance to the HySafe Activity MatrixV1-V4

Topic16
HySafe partnerUU
Company/InstitutionUniversity of Ulster
AddressShore Road
City/AreaNewtownabbey, Northern Ireland
Postal CodeBT37 0QB
CountryUnited Kingdom
Telephone/Fax+44(0)2890368731/+44(0)2890368726
Emailv.molkov@ulster.ac.uk
URLhttp://www.engj.ulst.ac.uk/tacg/
ResearcherFranck Verbecke
Research TopicFormation and combustion of inhomogeneous clouds after unscheduled releases of hydrogen in confined geometries and open atmosphere
Supervisor(s)Prof. V.V.Molkov, Dr. D.V.Makarov
AbstractThe aim of this research is to provide an understanding of safety issues related to subsonic and sonic hydrogen releases e.g. leaks from a vehicle tank, thermal and pressure effects from hydrogen deflagrations in confined geometries e.g. garage, in semi-confined geometries e.g. tunnel, and in open atmosphere e.g. refuelling station case. Simulations of large-scale experiments will be performed to further develop and validate the numerical UU LES (Large Eddy Simulation) model against experimental data for subsonic and sonic release but also for confined, semi-confined and open atmosphere deflagrations of homogeneous and inhomogeneous mixtures. The validation of release and deflagration models is important to produce reliable tools for hydrogen safety engineering and, in particular, to provide expertise for realistic accident scenarios. Hence, using this predictive tool, risk assessment and innovative safety concepts will be addressed.
Relevance to the HySafe Activity Matrix 

Topic17
HySafe partnerUU
Company/InstitutionUniversity of Ulster
AddressShore Road
City/AreaNewtownabbey, Northern Ireland
Postal CodeBT37 0QB
CountryUnited Kingdom
Telephone/Fax+44(0)2890368731/+44(0)2890368726
Emailv.molkov@ulster.ac.uk
URLhttp://www.engj.ulst.ac.uk/tacg/
ResearcherMaxim Bragin
Research TopicMechanisms of hydrogen ignition and fires
Supervisor(s)Prof. V.V.Molkov, Dr. D.V.Makarov
AbstractThe purpose of the research is to identify responsible mechanisms and test mitigation technologies for hydrogen auto-ignition.
Relevance to the HySafe Activity MatrixV1-V4

Topic18
HySafe partnerUU
Company/InstitutionUniversity of Ulster
AddressShore Road
City/AreaNewtownabbey, Northern Ireland
Postal CodeBT37 0QB
CountryUnited Kingdom
Telephone/Fax+44(0)2890368731/+44(0)2890368726
Emailv.molkov@ulster.ac.uk
URLhttp://www.engj.ulst.ac.uk/tacg/
ResearcherMateusz Zbikowski
Research TopicSimulations of dynamics of large-scale hydrogen-air detonation in open atmosphere and transition to detonation in semi-confined and confined geometries
Supervisor(s)Prof. V.V.Molkov, Dr. D.V.Makarov
AbstractThe purpose of the project is development and validation of the model for large-scale hydrogen-air detonations in open atmosphere and transition to detonation in semi-confined and confined geometries. The model is validated against experiments of another member of HySafe (Fh-ICT) on hydrogen-air detonation and DDT. The aim of this study concentrates on the development of detonation and DDT model for realistic prediction of dynamics of detonation front propagation and pressure dynamics at near and far field at large-scale accidents.
Relevance to the HySafe Activity Matrix 

Topic19
HySafe partnerUU
Company/InstitutionUniversity of Ulster
AddressShore Road
City/AreaNewtownabbey, Northern Ireland
Postal CodeBT37 0QB
CountryUnited Kingdom
Telephone/Fax+44(0)2890368731/+44(0)2890368726
Emailv.molkov@ulster.ac.uk
URLhttp://www.engj.ulst.ac.uk/tacg/
ResearcherJean-Bernard Saffers
Research TopicPrinciples of hydrogen safety engineering
Supervisor(s)Prof. V.V.Molkov, Dr. D.V.Makarov
AbstractThe aim of this research is to develop principles of hydrogen safety engineering (HSE) methodology for the protection of life, property and environment from adverse effects of incidents/accidents involving hydrogen. By analogy with existing fire safety engineering principles to the design of buildings, which offers a methodology for fire safety engineering, the future hydrogen safety engineers, including those educated at the University of Ulster (UU) and UU partners from the European e-Academy of Hydrogen Safety, must have a general framework of how to perform safe design and exploitation of hydrogen infrastructure and technology. To achieve this goal, a significant amount of published information needs to be analyzed, synthesized and ordered to generate a clear methodology.
Relevance to the HySafe Activity Matrix 

Topic20
HySafe partnerNCSRD
Company/InstitutionInstitute of Nuclear Technology and Radiation Protection
Address15310 Aghia Paraskevi Attikis
City/AreaAthens
Postal Code 
CountryGreece
Telephone/Fax+30(0)2106503402/+30(0)2106525004
Emailvenets@ipta.demokritos.gr
URL
ResearcherEvi Pantatosaki
Research TopicMolecular simulation of H2 sorption in porous media
Supervisor(s)Dr. A. Stubos
AbstractA number of experimental gravimetric and volumetric sorption techniques are employed to study the hydrogen storage capability of various materials including carbon based materials and metal hydrides under varying conditions of pressure and temperature. In parallel, a modeling approach based on molecular simulations using the Grand Canonical Monte Carlo approach is undertaken to obtain the necessary theoretical support for the interpretation and evaluation of the experimental results that refer to physisorption. The best match between experimental and theoretical isotherms for the carbon based materials is used to characterize their nanostructure and determine their pore size distribution.
Relevance to the HySafe Activity MatrixH3,V1

Topic21
HySafe partnerNCSRD
Company/InstitutionInstitute of Nuclear Technology and Radiation Protection
Address15310 Aghia Paraskevi Attikis
City/AreaAthens
Postal Code 
CountryGreece
Telephone/Fax+30(0)2106503402/+30(0)2106525004
Emailvenets@ipta.demokritos.gr
URL 
ResearcherMary Konstantakou
Research TopicH2 storage in porous materials
Supervisor(s)Dr. A. Stubos
AbstractRefined Monte Carlo techniques (including Ewald summation method for the evaluation of electrostatic interactions) are employed to simulate gas (CO2, H2) sorption in nanoporous materials (carbon). The aim is to confirm the validity of currently used approaches that are based on Coulomb-type interactions. Furthermore, molecular simulations under equilibrium and dynamic conditions are performed to examine the behaviour of gases like H2 in different zeolite structures. The results are compared to available experimental measurements.
Relevance to the HySafe Activity MatrixH3,V1

Topic22
HySafe partnerFZK
Company/InstitutionInstitut fur Kern- und Energietechnik, Forschungszentrum Karlsruhe
AddressHermann-von-Helmholtz-Platz 1 76344 Eggenstein-Leopoldshafen
City/AreaKarlsruhe, Baden-Wurttenberg
Postal Code76133
CountryGreece
Telephone/Fax+(0)497247826502
EmailAlexei.Kotchourko@iket.fzk.de
URLhttp://www.fzk.de/fzk/
ResearcherJorge Yanez Escanciano
Research TopicLarge Eddy Simulation of Combustion for Industrial Applications
Supervisor(s)Dr. Alexei Kotchourko
AbstractWith the aim of generating a completelly stable, accurate LES to calculate combustion in big volumes, the work is centered in the following topics: -Implementation of Classic Sub Grid Scales Models -Implementation of Advanced PDF combustion Model (T, density decoupled form coomosition) -Implementation of Advanced non Isotropic Sub Grid Scale Models (Approximate Deconvolution Model). -Improvement of the Spectral Definition Numerical Methods. -Improvement of the Stability and Isotropy of the Numerical Methods (Liapunov Stability).
Relevance to the HySafe Activity Matrix 

Topic23
HySafe partnerGEXCON
Company/InstitutionGexCon AS
AddressFantoftvegen 38, Postboks 6015
City/AreaBergen
Postal Code5892
CountryNorway
Telephone/Fax+47(0)55574318
Emailolav@gexcon.com
URLhttp://www.gexcon.com
ResearcherPrankul Middha
Research TopicCFD Modeling of Hydrogen dispersion and explosion with FLACS
Supervisor(s)Mr. Olav Hansen, Dr. Bjorn Arntzen
AbstractThe need for addressing hydrogen safety has increased substantially in recent years. The work focuses on the evaluation and improvements to the FLACS model, with special emphasis on hydrogen. We seek to address combustion as well as dispersion models. Small-scale applications as well as detonation transition phenomena will receive particular attention. The work will also seek to examine the mitigation techniques for minimizing the effects of hydrogen leaks and possible explosion events.
Relevance to the HySafe Activity MatrixV1 to V4

Topic24
HySafe partnerUPM
Company/InstitutionUniversidad Politecnica de Madrid
AddressNuclear Engineering Department, Jose Gutierrez Abascal 2
City/AreaMadrid
Postal CodeE-28006
CountrySpain
Telephone/Fax+34(0)913363112/+34(0)913363002
Emailfrancisco.martinfuertes@upm.es
URLhttp://www.din.upm.es
ResearcherMiguel Angel Jiménez García
Research TopicHydrogen Recombination in Passive Autocatalytic Devices and its Safety Implications in Nuclear Stations
Supervisor(s)Prof. Francisco Martín-Fuertes
AbstractAnalysis of Passive Autocatalytic Recombiner (PAR) devices as a hydrogen mitigation strategy within confined multicompartment geometries. Development and implementation of a detailed chemistry model within a standard code for safety assessments. Main results expected are the implementation of a detailed chemistry model into a multi-purpose lumped-parameter code and its application to realistic large-scale multicompartment geometries.
Relevance to the HySafe Activity MatrixV3, V4

Topic25
HySafe partnerCEA
Company/InstitutionCommissariat a l'Energie Atomique
AddressCEA Saclay, DM2S/SFME/LTMF
City/AreaGif-sur-Yvette
Postal CodeF-91191
CountryFrance
Telephone/Fax+33(0)169088409/+33(0)169088229
Emailhenri.paillere@cea.fr
URLhttp://www.cea.fr
Researcher 
Research TopicCFD modelling of H2 release and dispersion in confined geometries
Supervisor(s)Dr. Henri Paillere
Abstract 
Relevance to the HySafe Activity MatrixV1 - H2/H3/H4/H5

Topic26
HySafe partnerCEA
Company/InstitutionCommissariat a l'Energie Atomique
AddressCEA Saclay, DM2S/SFME/LTMF
City/AreaGif-sur-Yvette
Postal CodeF-91191
CountryFrance
Telephone/Fax+33(0)169088409/+33(0)169088229
Emailhenri.paillere@cea.fr
URLhttp://www.cea.fr
ResearcherCoralie Joseph Auguste
Research TopicModelling of hydrogen combustion under water spray conditions
Supervisor(s)Dr. Henri Paillere
Abstract 
Relevance to the HySafe Activity Matrix 

Topic27
HySafe partnerCEA
Company/InstitutionCommissariat a l'Energie Atomique
AddressCEA Saclay, DM2S/SFME/LTMF
City/AreaGif-sur-Yvette
Postal CodeF-91191
CountryFrance
Telephone/Fax+33(0)169088409/+33(0)169088229
Emailhenri.paillere@cea.fr
URLhttp://www.cea.fr
ResearcherEnrico Deri
Research TopicH2 release in a vehicle environment: gas flow and explosive volume formation
Supervisor(s)Dr. Henri Paillere
Abstract 
Relevance to the HySafe Activity Matrix 

Topic28
HySafe partnerHySafe-Advisory Council
Company/InstitutionKingston University
AddressFriars avenue
City/AreaLondon
Postal CodeSW15 3DW
CountryUnited Kingdom
Telephone/Fax+44(0)20854767836
Emailj.wen@kingston.ac.uk
URL http://www.kingston.ac.uk
ResearcherLailla El Hima
Research TopicAuto-ignition of pressurised hydrogen release
Supervisor(s)Prof. Jennifer Wen, Dr. Siaka Dembele
AbstractHydrogen is well known for its tendency to auto ignite. In some accidental scenarios, pressurised hydrogen release was found to have ignited when there was no clearly identifiable ignition source. Although several ignition mechanisms have been postulated and examined in the literature, including the reverse Joule-Thomson effect, static electricity, diffusion ignition, sudden adiabatic compression, hot surface ignition, mechanical friction and impact, etc., there still lacks clear understanding about the mechanisms that lead to the occasional auto-ignition of pressurized hydrogen release. Although more than one mechanism might be responsible for such spontaneous ignition, the focus of the present study is on diffusion ignition. We numerically investigate the diffusion ignition mechanism in high pressure hydrogen release through a section of tube into air.
Relevance to the HySafe Activity Matrix 

Topic29
HySafe partnerHySafe-Advisory Council
Company/InstitutionKingston University
AddressFriars avenue
City/AreaLondon
Postal CodeSW15 3DW
CountryUnited Kingdom
Telephone/Fax+44(0)20854767836
Emailj.wen@kingston.ac.uk
URL http://www.kingston.ac.uk
ResearcherErik Ducousso
Research TopicConfined explosions and DDT
Supervisor(s)Prof. Jennifer Wen, Dr. Siva Muppala
AbstractFor hydrogen-oxygen mixtures, the flame chemistry is now adequately known. The limitations of models in present CFD explosion codes and the challenges in development of new models are related to broadening the validity of turbulent burning velocity models. A range of turbulent burning data exist for methane and propane mixtures, but data are rare for most other fuel mixtures. Very few turbulent burning velocity data from experiments exists at elevated pressures, or in turbulence fields with high intensity or large length scale. The modeling efforts will attempt to modify the description of high-speed turbulent deflagrations where compressibility effects dominate. This project focuses on numerical studies of hydrogen explosions in confined enclosures. Particular emphasis will be given to the conditions that may lead to deflagration to detonation transition.
Relevance to the HySafe Activity Matrix 

Topic30
HySafe partnerHySafe-Advisory Council
Company/InstitutionKingston University
AddressFriars avenue
City/AreaLondon
Postal CodeSW15 3DW
CountryUnited Kingdom
Telephone/Fax+44(0)20854767836
Emailj.wen@kingston.ac.uk
URL http://www.kingston.ac.uk
ResearcherAli Heidari
Research TopicExplosions and DDT in unconfined hydrogen and vapour cloud flames
Supervisor(s)Prof. Jennifer Wen,
AbstractThis project will focus on studying the explosions and possible transition to detonation in unconfined hydrogen and vapour cloud explosions. The effect of vapour cloud sizes, and existence of obstacles of variable sizes, especially the repeated large scale obstacles will be investigated. Particular emphasis will be given to model the flame folding. The open source CFD code OPENFOAM will be used as the basic tool while systematic modifications/additions will be carried out to facilitate the study.
Relevance to the HySafe Activity Matrix 

Topic31
HySafe partnerHySafe-Advisory Council
Company/InstitutionKingston University
AddressFriars avenue
City/AreaLondon
Postal CodeSW15 3DW
CountryUnited Kingdom
Telephone/Fax+44(0)20854767836
Emailj.wen@kingston.ac.uk
URL http://www.kingston.ac.uk
ResearcherEfe Tunc
Research TopicHydrogen and vapour cloud explosions
Supervisor(s)Prof. Jennifer Wen
AbstractNumerical simulations will be conducted for both confined and unconfined vapour cloud explosions to aid the analysis of effect of obstacles/walls on flame acceleration and the pre-compression of the unburned which is believed to be of crucial importance in flame acceleration which might lead to DDT.
Relevance to the HySafe Activity Matrix 

Topic32
HySafe partnerHySafe-Advisory Council
Company/InstitutionKingston University
AddressFriars avenue
City/AreaLondon
Postal CodeSW15 3DW
CountryUnited Kingdom
Telephone/Fax+44(0)20854767836
Emailj.wen@kingston.ac.uk
URL http://www.kingston.ac.uk
ResearcherAli Heidari
Research TopicLiquid hydrogen spill and combustible cloud dynamics
Supervisor(s)Prof. Jennifer Wen, Dr. Siva Muppala
AbstractTwo approaches will be used to investigate the hazard consequence of liquid hydrogen spill and the combustible cloud. The first approach will be similar to the above using the unified dispersion model PHAST for the liquid hydrogen spill. PHAST models the dispersion following a ground-level or elevated two-phase pressurised release. It effectively consists of the following linked modules: jet dispersion, droplet evaporation and rainout, touchdown, pool spread and vaporisation, heavy gas dispersion, passive dispersion. However for the cloud formation, the LES techniques which can better capture the buoyancy effects will be used. In the second approach, which is favoured for development in the project, we will couple the calculation of pool spreading and vapourisation using CFD by implementing the essential spill sub-models into an existing CFD code. This is also the recommended approach in the recent review paper by one of the industrial supervisors of the proposed research.
Relevance to the HySafe Activity Matrix 

Topic33
HySafe partnerHySafe-Advisory Council
Company/InstitutionKingston University
AddressFriars avenue
City/AreaLondon
Postal CodeSW15 3DW
CountryUnited Kingdom
Telephone/Fax+44(0)20854767836
Emailj.wen@kingston.ac.uk
URL http://www.kingston.ac.uk
Researchervacant
Research TopicHydrogen jet fires and jet fire impingement on storage vessels
Supervisor(s)Prof. Jennifer Wen, Dr. Siaka Dembele
AbstractSignificant technical problems are associated with the storage of hydrogen because of its low density. As hydrogen has a wide flammability range (4-74% in air), the chance of ignition from any accident release is potentially much higher than common hydrocarbon fuels and this may give rise to slow deflagrations, fast deflagrations or under certain conditions detonations depending on the concentration, size of the cloud and the geometry involved. Large-scale tests for such high-pressure jet flames are costly and in many cases can only be conducted in the open. Modelling approaches based on the use of computational fluid dynamics (CFD) techniques will be ideal to gain insight and explore the unknowns. However, little has been attempted in this direction so far. Some preliminary modelling studies conducted by our group as shown promising results. Following on from these earlier studies, original and innovative modelling approaches based on the use of CFD techniques will be developed, validated and applied to such scenarios. Investigations will also be extended to the impingement of such jet fires on storage vessels.
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Previous topics


Topic34
HySafe partnerFZJ
Company/InstitutionForschungszentrum Juelich GmbH
AddressISR-2
City/AreaJuelich
Postal Code52425
CountryGermany
Telephone/Fax+49(0)2461615530/+49(0)2461616856
Emaile.reinecke@fz-juelich.de
URLhttp://www.fz-juelich.de
ResearcherStephan Juehe
Research TopicModelling of catalytic recombiner
Supervisor(s)Dr. Ernst-Arndt Reinecke
AbstractNumerous containments of European light water reactors (LWR) are equipped with passive auto-catalytic recombiners (PAR) for the removal of hydrogen generated during a severe accident. PAR make use of the fact that hydrogen and oxygen react exothermally on catalytic surfaces generating steam and heat even below conventional ignition concentrations and temperatures. For the assessment of the operational behaviour and hydrogen conversion efficiency of PAR in accident scenario calculations numerical models have been developed. PAR models available are mainly black-box models with limited consideration of e.g. reaction kinetics or heat and mass transfer phenomena. Consequently, the reliability of predictions on the PAR performance in today’s severe accident analyses is limited. Within the scope of the project the numerical code REKO-DIREKT is developed for simulation of the PAR operational behaviour including e.g. criteria for the ignition of the gas mixture on hot components or the thermal hydraulic interaction of the PAR and the surrounding atmosphere.
Relevance to the HySafe Activity MatrixV3




File translated by Arief Dahoe from TEX using TTH, version 3.68.
On 16 Feb 2009, 10:58.