Overview of safety practices in sustainable hydrogen economy-An Australian perspective |
2022 |
Journal Article |
K. Maeda, Y. Tamura |
Hydrogen safety, standards, hydrogen storage and delivery, hydrogen strategy plan, natural-gas, Detonation, energy, transition, enhance, transportation, technologies, framework, incident, mixture |
Overview of the DOE hydrogen safety, codes and standards program part 2: Hydrogen and fuel cells: Emphasizing safety to enable commercialization |
2017 |
Journal Article |
H. Hussein, S. Brennan, V. Molkov |
Hydrogen safety, safety training, codes and standards, best practices, lessons learned |
Overview of the DOE hydrogen safety, codes and standards program, part 3: Advances in research and development to enhance the scientific basis for hydrogen regulations, codes and standards |
2017 |
Journal Article |
T. Nishimatsu, S. Ohi, M. Nakazawa, E. Toba, K. Ohta, K. Shibata |
Hydrogen, safety, codes and standards, risk-assessment, co, contamination |
Pd/SiO and AuPd/SiO nanocomposite-based optical fiber sensors for H sensing applications |
2015 |
Journal Article |
I. Tolias, A. Venetsanos |
hydrogen sensor, optical sensor, pd nanoparticle, nanocomposite, evanescent wave absorption spectroscopy, hydrogen sensor, composite film, thin-films, gas, palladium, oxide, surface, nanoparticles |
Performance evaluation of empirical models for vented lean hydrogen explosions |
2019 |
Journal Article |
S. Pique, B. Weinberger, V. De-Dianous, B. Debray |
vented explosions, empirical model, new engineering model, deflagrations, hydrogen combustion, obstacles, air deflagrations, overpressures |
Performance of hydrogen storage tank with TPRD in an engulfing fire |
2021 |
Journal Article |
F. Ustolin, N. Paltrinieri, G. Landucci |
hydrogen storage tank, blowdown, fire-resistance rating, specific heat release rate, tprd diameter and activation time, liner melting phenomenon, balance integral method, pressure peaking, mushy region, Cylinders, decomposition, methodology, release, Safety, tests, risk |
Performance tests of catalysts for the safe conversion of hydrogen inside the nuclear waste containers in Fukushima Daiichi |
2021 |
Journal Article |
A. Prabhakar, N. Agrawal, V. Raghavan, S. Das |
Hydrogen safety, nuclear waste, radiolysis, catalytic recombiner, performance tests, fukushima |
Phenomena and mechanism of molten copper column interaction with water |
2020 |
Journal Article |
B. Ye, C. He, N. Li, M . Y. Ding, Y. Wang, Y. Zhang, K. He |
contact interaction research, vapor explosion, numerical-analysis, drop impact, single drop, liquid-drop, fragmentation, Temperature, dynamics, propagation |
Phenomena of single water droplet impacting a heptane layer on water pool |
2022 |
Journal Article |
I. Pushkareva, A. Pushkarev, S. Grigoriev, P. Modisha, D. Bessarabov |
droplet impact, double crown, oil layer, weber number, weber number, liquid, behavior, Temperature, splash, flow |
Phenomenological characterization and thermal analysis of flame spread over jet fuel: influence of radiant exposure time |
2020 |
Journal Article |
W. Kaneko, K. Ishii |
flame spread, jet fuel, Radiant exposure time, Thermal exchange, ambient oxygen, ignition, radiation, flux, wood |
Physical model of onboard hydrogen storage tank thermal behaviour during fuelling |
2019 |
Journal Article |
V. Molkov, D. Makarov, H. Schneider |
Hydrogen, fuelling, onboard storage, model, validation, fuelling protocol, high-pressure, Temperature, simulations |
Physics and flame morphology of supersonic spontaneously combusting hydrogen spouting into air |
2022 |
Journal Article |
A. Velikorodny, E. Studer, S. Kudriakov, A. Beccantini |
Hydrogen safety, leakage, self-ignition, supersonic combustion, jet flame, high-pressure hydrogen, under-expanded hydrogen, shock-wave propagation, Spontaneous Ignition, self-ignition, methane jets, gas, release, dynamics, tube |
PIV-measurements of reactant flow in hydrogen-air explosions |
2019 |
Journal Article |
A. LaFleur, A. Muna, K. Groth |
piv, Explosion, flame-obstacle interaction, Flame acceleration, ddt |
Pool spreading and vaporization of liquid hydrogen |
2007 |
Journal Article |
B. Kichatov, A. Korshunov, A. Kiverin, E. Son |
|
Predicting radiative heat fluxes and flammability envelopes from unintended releases of hydrogen |
2007 |
Journal Article |
E. Gallego, E. Migoya, J.M. Martin-Valdepenas, A. Crespo, J. Garcia, A. Venetsanos, E. Papanikolaou, S. Kumar, S. E., O.R. Hansen, Y. Dagba, T. Jordan, W. Jahn, S. Hoist, D. Makarov, J. Piechna |
Hydrogen, flame radiation, flammability envelope, high-pressure jets, flames, decay |
Prediction of Deflagrative Explosions in Variety of Closed Vessels |
2021 |
Journal Article |
A. Tchouvelev, W. Buttner, D. Melideo, D. Baraldi, B. Angers |
Explosion, deflagration, closed vessel, cfd modeling, multi-phenomena deflagration model, computational fluid dynamics, simulations, large-eddy simulation, hydrogen-air deflagrations, cfd models, les, hydrocarbons, capabilities, atmosphere, mixtures, exercise, velocity |
Preface to the special issue on the 7th International Conference on Hydrogen Safety (ICHS 2017) |
2019 |
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 |
chemistry, Electrochemistry, Energy & Fuels |
Preliminary hazard identification for qualitative risk assessment on a hybrid gasoline-hydrogen fueling station with an on-site hydrogen production system using organic chemical hydride |
2016 |
Journal Article |
Seyed Hosseini, Brayden Butler |
hydrogen fueling station, hazard identification study, organic chemical hydride, qualitative risk assessment, liquid-hydrogen, Safety, transportation, storage, tank |
Premixed flame propagation in hydrogen explosions |
2018 |
Journal Article |
M. Li, Z. Shu, S. Geng, G. Han |
Hydrogen safety, hydrogen explosion, flame propagation, flame instability, Flame acceleration, deflagration-to-detonation transition, tulip flame, burning velocities, air mixtures, shock-waves, acceleration, combustion, ddt, Detonation, deflagration, transition |
Presentation of the French National Project Drive: Experimental Data for the Evaluation of Hydrogen Risks Onboard Vehicles, the Validation of Numerical Tools and the Edition of Guidelines |
2007 |
Journal Article |
B. Ye, C. He, N. Li, M . Y. Ding, Y. Wang, Y. Zhang, K. He |
|
Pressure effects of an ignited release from onboard storage in a garage with a single vent |
2019 |
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 |
pressure peaking, enclosure fire, Garage, unignited release |
Pressure peaking phenomena: Unignited hydrogen releases in confined spaces - Large-scale experiments |
2020 |
Journal Article |
W. Buttner, M. Ciotti, K. Hartmann, K. Schmidt, H. Wright, E. Weidner |
Hydrogen safety, pressure peaking phenomenon, model validation, passive ventilation, large-scale experiments, enclosures, enclosure |
Pressure peaking phenomenon for indoor hydrogen releases |
2018 |
Journal Article |
H. Zhang, Y. Li, J. Xiao, T. Jordan |
pressure peaking, Hydrogen, enclosure, Ventilation, overpressure, nomogram |
Pressure peaking phenomenon: Model validation against unignited release and jet fire experiments |
2018 |
Journal Article |
E. Gaykema, I. Skryabin, J. Prest, B. Hansen |
Hydrogen, jet fire, enclosure, vent, pressure peaking phenomenon, model validation, one vent, Ventilation, enclosure |
Pressure vessels with reinforcing space-filling skeletons |
2008 |
Journal Article |
T. Skjold, H. Hisken, S. Lakshmipathy, G. Atanga, M. Carcassi, M. Schiavetti, J. Stewart, A. Newton, J. Hoyes, I. Tolias, A. Venetsanos, O. Hansen, J. Geng, A. Huser, S. Helland, R. Jambut, K. Ren, A. Kotchourko, T. Jordan, J. Daubech, G. Lecocq, A. Hanssen, C. Kumar, L. Krumenacker, S. Jallais, D. Miller, C. Bauwens |
pressure vessels, compressed fluids, hydrogen fuel cells, space filling, lattice structures/ materials, hydrogen-storage |