| Experimental study on the effects of ignition location and vent burst pressure on vented hydrogen-air deflagrations in a cubic vessel |
2020 |
Journal Article |
S. Rui, C. Wang, X. Luo, Q. Li, H. Zhang |
explosion venting, overpressure, helmholtz oscillation, Hydrogen safety, Explosion, mixtures, overpressures, duct, cfd |
| Experimental study on turbulent expanding flames of lean hydrogen/air mixtures |
2017 |
Journal Article |
J. Goulier, A. Comandini, F. Halter, N. Chaumeix |
turbulent flame, hydrogen flame, expanding flames, Hydrogen safety, burning velocities, elevated pressures, combustion, air, laminar, bomb |
| Experiments on combustion regimes for hydrogen/air mixtures in a thin layer geometry |
2019 |
Journal Article |
T. Baalisampang, R. Abbassi, V. Garaniya, F. Khan, M. Dadashzadeh |
Hydrogen, fuel cell, thin layer, extinction, Flame acceleration, detonations, air turbulent flames, stoichiometric ethylene/oxygen, acceleration, instability, Detonation, limits, scale, ddt |
| Exploring the potential of compressed natural gas as a viable fuel option to sustainable transport: A bibliography (2001-2015) |
2016 |
Journal Article |
H. Zhang, Y. Li, J. Xiao, T. Jordan |
cng, natural gas, vehicle, transport, cycle emissions, cng |
| Explosion mitigation of methane‐air mixture in combined application of inert gas and ABC dry powders in a closed compartment |
2019 |
Journal Article |
S. Li, J. Long, P. Sui, Z. Hou, R. Chahine, J. Xiao |
ABC dry powder, co2, explosion mitigation, methane-air explosion, process safety, detonation suppression, dust explosions, deflagrations, propagation, prevention, diluents, nitrogen, behavior, particle |
| Explosion venting of hydrogen-air mixture in an obstructed rectangular tube |
2022 |
Journal Article |
I. Tolias, S. Giannissi, A. Venetsanos, J. Keenan, V. Shentsov, D. Makarov, S. Coldrick, A. Kotchourko, K. Ren, O. Jedicke, D. Melideo, D. Baraldi, S. Slater, A. Duclos, F. Verbecke, V. Molkov |
Hydrogen safety, explosion venting, Blockage ratio, overpressure, external explosion, turbulent flame propagation, to-detonation transition, gas explosion, obstacles, deflagrations, overpressures, size, congestion, position, Energy & Fuels, Engineering |
| Explosion venting of hydrogen-air mixtures from a duct to a vented vessel |
2018 |
Journal Article |
A. Kiverin, I. Yakovenko |
explosion venting, overpressure, flame, duct, obstacle, large-scale, gas explosion, equivalence ratio, dust explosions, deflagrations, overpressures, position, volumes, Detonation, combustion |
| Explosion venting of rich hydrogen-air mixtures in a small cylindrical vessel with two symmetrical vents |
2017 |
Journal Article |
J. Guo, C. Wang, X . Y. Liu, Y. Chen |
Hydrogen safety, explosion venting, vent area, flame propagation, overpressure, gas-explosions, Pressure, deflagrations, volume, overpressures, enclosures, dynamics, ignition |
| External explosions of vented hydrogen-air deflagrations in a cubic vessel |
2021 |
Journal Article |
S. Rui, C. Wang, X. Luo, R. Jing, Q. Li |
Hydrogen safety, external explosion, flame, overpressure, vented explosion, burst pressure, gaseous explosions, spherical vessels, ignition position, gas explosion, overpressures, gasdynamics, mixtures |
| Extinguishment of hydrogen diffusion flames by ultrafine water mist in a cup burner apparatus - A numerical study |
2015 |
Journal Article |
T. Skjold, H. Hisken, L. Bernard, L. Mauri, G. Atanga, S. Lakshmipathy, M. Lucas, M. Carcassi, M. Schiavetti, V. Rao, A. Sinha, J. Wen, I. Tolias, S. Giannissi, A. Venetsanos, J. Stewart, O. Hansen, C. Kumar, L. Krumenacker, F. Laviron, R. Jambuti, A. Huser |
Hydrogen safety, water mist, fire suppression, extinguishing mechanism, cup burner, vented cylindrical rig, methane-air, suppression, mitigation, mechanisms, deflagrations, extinction, Explosions, fog |
| Extinguishment of hydrogen laminar diffusion flames by water vapor in a cup burner apparatus |
2015 |
Journal Article |
B. Ye, C. He, N. Li, M . Y. Ding, Y. Wang, Y. Zhang, K. He |
Hydrogen safety, diffusion flame, water vapor, nitrogen, flame suppression, oxygen-nitrogen explosions, mist, suppression, extinction, microgravity, mechanisms, model, fire, air |
| Fabrication of highly sensitive and selective H(2) gas sensor based on SnO(2) thin film sensitized with microsized Pd islands |
2016 |
Journal Article |
I. Yakovenko, M. Ivanov, A. Kiverin, K. Melnikova |
H(2) gas sensor, Pd islands, SnO(2), Sputtering, Wafer-scale fabrication |
| Fast Turbulent Deflagration and DDT of Hydrogen-Air Mixtures in Small Obstructed Channel |
2007 |
Conference Paper |
X. Li, D. Christopher, E. Hecht, I. Ekoto |
ICHS |
| Fault tree analysis of proton exchange membrane fuel cell system safety |
2015 |
Journal Article |
A. Avdeenkov, V. Sergeev, A. Stepanov, A. Malakhov, D . Y. Koshmanov, S. Soloviev, D. Bessarabov |
pemfc system, Safety, fault tree, hydrogen explosion, quantitative safety analysis, Hydrogen safety, customer satisfaction, reliability, risk, quality, design |
| Field Trials Testing of Mixed Potential Electrochemical Hydrogen Safety Sensors at Commercial California Hydrogen Filling Stations |
2017 |
Conference Paper |
J. Grune, K. Sempert, A. Friedrich, M. Kuznetsov, T. Jordan |
|
| Finite Element Modeling of Composite Hydrogen Cylinders in Localized Flame Impingements |
2008 |
Journal Article |
S. Chavan, D. Talange, |
|
| Fire tests carried out in FCH JU Firecomp project, recommendations and application to safety of gas storage systems |
2019 |
Journal Article |
M. Nakamura, J. Kim, M. Nakamichi, Y. Someya, K. Tobita, Y. Sakamoto, R. Hiwatari, Joint Fusion |
Safety, fire, composite cylinders, compressed gas, tests, simulation, ICHS |
| First responder training: Supporting commercialization of hydrogen and fuel cell technologies |
2017 |
Journal Article |
N. Barilo, J. Hamilton, S. Weiner |
Hydrogen, Hydrogen safety, Fuel cells, first responder, training, emergency response |
| Flame acceleration and transition to detonation in ducts |
2008 |
Journal Article |
G. Ciccarelli, S. Dorofeev |
ddt, flame, Detonation, shock wave, turbulent burning velocities, transverse-waves, premixed flames, spherical detonation, markstein lengths, air, deflagration, Hydrogen, propagation, initiation |
| Flame characteristics of under-expanded, cryogenic hydrogen jet fire |
2022 |
Journal Article |
M. Saeed, J . Y. Yu, X. Zhong, B. Hou, X. Zhang, M. Ghazanfar, G . Y. Liu, C. Yang, |
cryogenic hydrogen, hydrogen jet fire, flame size, thermal radiation fraction, adaptive mesh refinement, high-pressure, nitrogen emissions, diffusion flames, 82 mpa, dispersion, release, simulation, ignition, hazards |
| Flame Quenching Limits of Hydrogen Leaks |
2008 |
Journal Article |
Q. Li, S. Lu, C. Wang |
|
| Flame spread over n‐butanol fuel at sub‐flashpoint temperature with steps in the gas phase |
2021 |
Journal Article |
Manhou Li, Peiyuan Hu, Changjian Wang, Zhaotao Liu |
flame resident time, flame spread, gas-phase step, heat flux, subsurface flow, propagation |
| flameFoam: An open source CFD solver for turbulent premixed combustion |
2021 |
Journal Article |
M. Povilaitis, J. Jaseliunaite |
turbulent premixed combustion, openfoam, flame propagation, Hydrogen safety, severe nuclear accidents, hydrogen safety management, detonation transition, validation, deflagration, simulations, mixtures, scale |
| Flammability profiles associated with high-pressure hydrogen jets released in close proximity to surfaces |
2017 |
Journal Article |
J. Hall, P. Hooker, L. O'Sullivan, B. Angers, A. Hourri, P. Bernard |
Hydrogen, high-pressure, flacs, Thermal radiation, coanda, flammable extent |
| Full-scale tunnel experiments: Blast wave and fireball evolution following hydrogen tank rupture |
2022 |
Journal Article |
S. Brennan, V. Molkov |
Hydrogen safety, tank rupture test, blast wave decay, fireball |
