| Numerical simulation and validation of flame acceleration and DDT in hydrogen air mixtures |
2018 |
Journal Article |
X. Huang, T. Fu, G. Huang, |
Flame acceleration, deflagration to detonation transition, Numerical simulation, openfoam, Hydrogen safety, to-detonation transition, premixed combustion, deflagration, Explosions, obstacles, mechanism, channels, model |
| Numerical simulation of accidental released hazardous gas dispersion at a methanation plant using GASFLOW-MPI |
2021 |
Journal Article |
F. Williams |
turbulence dispersion, Hydrogen safety, hazardous gas, power-to-gas technology, cfd code, turbulent dispersion, hydrogen risk, vehicles, system |
| Numerical simulation of deflagration-to-detonation transition in large confined volumes |
2015 |
Journal Article |
Z. Cheng, V.M. Agranat, A.V. Tchouvelev |
Hydrogen safety, gas explosion, Flame acceleration, ddt, rut facility, under-resolved cfd, hydrogen/air mixtures, Flame acceleration, combustion, model, air |
| Numerical simulation of detonation failure and re-initiation in bifurcated tubes |
2017 |
Journal Article |
C. Muller, S. Furst, W. von Klitzing |
numerical simulations, deflagration, Detonation, bifurcated tube, Flame acceleration, deflagration, transition, propagation, diffraction, mechanism |
| Numerical Simulation of Erosion Characteristics for Solid-Air Particles in Liquid Hydrogen Elbow Pipe |
2021 |
Journal Article |
Q. Xie, S. Guo, Y. Zhang, C. Wang, C. Ma, Q. Li |
liquid hydrogen, cfd-dpm, erosion rate, fitting relationship, Hydrogen safety, vapor cloud, prediction, uncertainty, impact, valve, model, water, flow |
| Numerical simulation of flame acceleration and deflagration-to-detonation transition in hydrogen-air mixtures with concentration gradients |
2017 |
Journal Article |
C. Wang, J. Wen |
Hydrogen safety, Flame acceleration, deflagration-to-detonation, transition, inhomogeneous hydrogen-air, mixture, sequel, ausm |
| Numerical simulation of small pool fires incorporating liquid fuel motion |
2020 |
Journal Article |
E. Brosha, C. Romero, D. Poppe, T. Williamson, C. Kreller, R. Mukundan, R. Glass, A. Wu, Soc Electrochem |
pool fire, gas-liquid approach, burning rate, thermocapillary force, large eddy simulation, large-eddy simulation, phase, prediction, diffusion |
| Numerical simulation on the spontaneous ignition of high-pressure hydrogen release through a tube at different burst pressures |
2022 |
Journal Article |
W. Guo, Q. Li, Z. Lv, A. Zhang, Z. Shen |
Hydrogen safety, diffusion ignition, shock wave, heat release rate, flame propagation, self-ignition, semidiscrete, schemes |
| Numerical Studies on Hydrogen Distribution in Enclosures in the Presence of Condensing Steam |
2015 |
Journal Article |
S. Cho, K. Kim, W. Kim, S. Choi |
hydrogen distribution, steam condensation, buoyant jet, mixing, deflagration potential, heat transfer, turbulent natural-convection, heat-transfer, cfd code, condensation, layer |
| Numerical study of hydrogen dispersion in a fuel cell vehicle under the effect of ambient wind |
2019 |
Journal Article |
F. Wang, Z. Zou, J. Deng, H. Qin, M. Zhang |
Hydrogen safety, hydrogen fuel cell vehicle, computational fluid dynamics, high-pressure, leaking, decay, jets |
| Numerical study of hydrogen/methane buoyant fires using FireFoam |
2020 |
Journal Article |
Y. Hajji, M. Bouteraa, P. Bournot, M. Bououdina |
hydrogen/methane buoyant fires, Numerical simulation, improved edc combustion model, large-eddy simulation, turbulent-diffusion flames, combustion characteristics, soot formation, high-pressure, hybrid fuel, methane, Temperature, air, enrichment |
| Numerical study of the effect of hydrogen leakage position and direction on hydrogen distribution in a closed enclosure |
2020 |
Journal Article |
M. Abbas, S. Kheradmand, H. Sadoughipour |
Hydrogen, hydrogen leaks, Hydrogen safety, dispersion, cfd models, capabilities, dispersion, exercise, predict, volume, energy, air |
| Numerical study on laminar flame velocity of hydrogen-air combustion under water spray effects |
2019 |
Journal Article |
D. Bradley, M. Lawes, K. Liu, S. Verhelst, R. Woolley |
combustion, laminar flame velocity, water spray, Hydrogen safety, burning velocities, acceleration, mixtures, breakup, model, size, mist, fog |
| Numerical study on the flow characteristics of pressurized hydrogen leaking into the confined space through different shaped orifices |
2022 |
Journal Article |
T. Zhang, Y. Jiang, S. Wang, X. Pan, M. Hua, Z. Wang, Q . Y. Wang, Y . Y. Li, J. Jiang |
Hydrogen safety, pressurized hydrogen, leakage orifices, flow characteristics, shock waves, large-eddy simulation, Spontaneous Ignition, diaphragm shape, self-ignition, gas-flow, release, jets, strut, mechanism, integrity |
| Numerical study on the influence of different boundary conditions on the efficiency of hydrogen recombiners inside a car garage |
2017 |
Journal Article |
J. Baggemann, W. Jahn, S. Kelm, E. Reinecke, H. Allelein |
Hydrogen safety, cfd simulation, recombiner, fuel cell car, car garage, hydrogen distribution, Safety, dispersion, release, models, gas |
| Numerical study on the mechanism of spontaneous ignition of high-pressure hydrogen during its sudden release into a tube |
2020 |
Journal Article |
M. Groethe, E. Merilo, J. Colton, S. Chiba, Y. Sato, H. Iwabuchi |
high-pressure hydrogen release, Spontaneous Ignition, mechanism, shock wave, cfd, spontaneous self-ignition, flame propagation, rupture rate, gas, jet, les, discharge, additions, dynamics, geometry |
| Numerical study on the mechanism of spontaneous ignition of high-pressure hydrogen in the L-shaped tube |
2020 |
Journal Article |
L. Gong, K . Y. Jin, S. Yang, Z . Y. Yang, Z. Li, Y. Gao, Y. Zhang |
high-pressure hydrogen, release, Spontaneous Ignition, mechanism, l-shaped tube, cfd, self-ignition, flame propagation, release, dynamics, visualization, Explosion, geometry, model |
| Numerical study on the spontaneous ignition of pressurized hydrogen release through a tube into air |
2008 |
Journal Article |
B. Xu, El Hima, J. Wen, S. Dembele, V. H. Y. Tam, T. Donchev |
Hydrogen, high-pressure jet, Spontaneous Ignition, diffusion ignition, Shock, molecular transport and ale, gas |
| Numerical study on uniform-shear flow over a circular disk at low Reynolds numbers |
2018 |
Journal Article |
J. Yang, M. Liu, C. Wang, X. Zhu, A. Zhang |
conical premixed flames, blowoff characteristics, axisymmetrical bodies, vortex structures, wake transition, small sphere, lift, dynamics, particle, instabilities |
| Numerical validation of pressure peaking from an ignited hydrogen release in a laboratory-scale enclosure and application to a garage scenario |
2018 |
Journal Article |
H. Hussein, S. Brennan, V. Shentsov, D. Makarov, V. Molkov |
ignited release, hydrogen jet fire, enclosure fire, pressure peaking phenomenon, pressure dynamics, Hydrogen safety, one vent, combustion, turbulence, simulations, flames, model |
| On the development of an International Curriculum on Hydrogen Safety Engineering and its implementation into educational programmes |
2007 |
Journal Article |
A. Dahoe, V. Molkov |
Hydrogen safety, education, hydrogen economy |
| On the implementation of an international curriculum on hydrogen safety engineering into higher education |
2008 |
Journal Article |
R. Ono, M. Nifuku, S. Fujiwara, S. Horiguchi, T. Oda |
Hydrogen safety, education |
| Opportunities and data requirements for data-driven prognostics and health management in liquid hydrogen storage systems |
2022 |
Journal Article |
C. Correa-Jullian, K. Groth |
liquid hydrogen storage, prognostics and health management, Hydrogen safety, condition-monitoring data, quantitative risk-assessment, fault-diagnosis, degradation prediction, refueling station, digital-twin, model, algorithms, tools |
| Outward propagation velocity and acceleration characteristics in hydrogen-air deflagration |
2017 |
Journal Article |
E. Hecht, P. Panda |
flame propagation, premixed flame, propagation velocity, intrinsic instability, cellular flame, Flame acceleration, spherical flames |
| Overview of hydrogen combustion experiments performed in a large scale vented vessel at Canadian Nuclear Laboratories |
2018 |
Journal Article |
Z. Liang, T. Clouthier, R. MacCoy, Y. Chin |
Hydrogen, Vented deflagration, scaling, acoustic oscillation, inter-connected volume, air mixtures, gaseous explosions, volumes, deflagrations |
