| The role of CFD combustion modeling in hydrogen safety management - VII: Validation for hydrogen deflagration in large-scale hydrogen-air-steam experiment |
2019 |
Journal Article |
T. Holler, E. Komen, I. Kljenak |
Hydrogen, combustion, deflagration, premixed flame, turbulent flame speed, molecular-transport, laminar, simulations, propagation, density |
| The role of CFD combustion modelling in hydrogen safety management - VI: Validation for slow deflagration in homogeneous hydrogen-air-steam experiments |
2017 |
Journal Article |
A. Rakhimov, D. Visser, T. Holler, E. Komen |
turbulent premixed flame propagation, hydrogen deflagration, code validation, hydrogen-air-steam mixture, turbulent combustion, simulations, scale |
| The role of CFD combustion modelling in hydrogen safety management-VIII: Use of Eddy Break-Up combustion models for simulation of large-scale hydrogen deflagration experiments |
2022 |
Journal Article |
T. Holler, E. Komen, I. Kljenak |
hydrogen combustion, hydrogen deflagration, turbulent premixed flame, eddy break-up, turbulent flame speed, burning velocities, validation, air, laminar |
| The Role of CFD Computer Analyses in Hydrogen Safety Management |
2015 |
Journal Article |
E. Komen, D. Visser, F. Roelofs, J. Lintelo |
validation |
| The role of initial tank temperature on refuelling of on-board hydrogen tanks |
2016 |
Journal Article |
N. de Miguel, B. Acosta, D. Baraldi, R. Melideo, Ortiz Cebolla, P. Moretto |
|
| Theoretical analysis of anomalous explosion behavior for H 2 /CO/O 2 /N 2 and CH 4 /O 2 /N 2 /CO 2 mixtures in the light of combustion-induced rapid phase transition |
2015 |
Journal Article |
C. Bauwens, J. Bergthorson, S. Dorofeev |
Hydrogen safety, Explosion, deflagration, Detonation, crpt phenomenon, oxy-fuel combustion, oxygen, Detonation |
| Thermal and kinetics mechanism of explosion mitigation of methane-air mixture by N-2/CO2 in a closed compartment |
2019 |
Journal Article |
Manhou Li, Qiuting Luo, Zhizhong Shu, Hanyuan Chen, Yang Pan, Ruijie Li |
methane-air explosion, inert gases, explosion mitigation, thermal and kinetics mechanism, closed compartment, laminar flame speeds, gas explosion, coal-dust, suppression, diluents, nitrogen, propagation, velocity, dilution, behavior |
| Thermal decomposition characteristic parameters for the outer material of composite hydrogen storage tank by cone calorimeter |
2019 |
Journal Article |
Z. Zhang, C. Wang, G. Huang, H. Liu, W. Zhao |
Hydrogen safety, composite material of hydrogen tank, cone calorimeter, thermal decomposition, heat flux, flame retardancy, heat-flux, combustion, degradation, ignition, pmma |
| Thermal degradation behaviors and reaction mechanism of carbon fibre-epoxy composite from hydrogen tank by TG-FTIR |
2018 |
Journal Article |
Z. Zhang, C. Wang, G. Huang, H. Liu, S. Yang, A. Zhang |
Activation energy, Carbon fibre-epoxy composite, Hydrogen safety, Reaction mechanism, Tg-ftir |
| Thermal degradation of flame-retarded high-voltage cable sheath and insulation via TG-FTIR |
2018 |
Journal Article |
C. Wang, H. Liu, J. Zhang, S. Yang, Z. Zhang, W. Zhao |
flame-retarded high-voltage cable, pyrolysis, Kinetics, thermogravimetry, gas evolution, pyrolysis characteristics, reaction-mechanisms, pine sawdust, py-gc/ms, Kinetics, combustion, electrolyte, model, straw |
| Thermal model development and validation for rapid filling of high pressure hydrogen tanks |
2015 |
Journal Article |
L. Ta, Z. Wang, B. Zhang, Y. Jiang, Y . Y. Li, Q . Y. Wang, T. Zhang, M. Hua, X. Pan, J. Jiang |
high pressure hydrogen storage, fast filling, real gas equation, one-dimensional and 3d models, cylinder, vessels, mass |
| Thermal quenching and re-ignition of mixed pockets of reactants and products in gas explosions |
2007 |
Journal Article |
Q . Y. Wang, X. Pan, Y. Jiang, Z. Wang, Y . Y. Li, L. Ta, M. Hua, J. Jiang |
gas explosions, Flame acceleration, turbulent flames, quenching, flames, combustion, mixtures, limits |
| Thermal radiation from cryogenic hydrogen jet fires |
2019 |
Journal Article |
D. Cirrone, D. Makarov, V. Molkov |
cfd, jet fire, cryogenic, Hydrogen, radiative heat transfer, cfd analysis, combustion, release, model |
| Thermal simulations of a hydrogen storage tank during fast filling |
2015 |
Journal Article |
I. Simonovski, D. Baraldi, D. Melideo, B. Acosta-Iborra |
hydrogen storage safety, fast filling, thermal simulation, finite element, temperature rise, heat-transfer, 70 mpa, pressure-vessel, iii cylinder, mass, performance, vehicle, models |
| Three-dimensional all-speed CFD code for safety analysis of nuclear reactor containment: Status of GASFLOW parallelization, model development, validation and application |
2016 |
Journal Article |
J. Xiao, J. Travis, P. Royl, G. Necker, A. Svishchev, T. Jordan |
turbulent flame speed, large-scale, flow, combustion, simulations |
| Threshold stress intensity factor for hydrogen-assisted cracking of CR-MO steel used as stationary storage buffer of a hydrogen refueling station |
2017 |
Journal Article |
T. Matsumoto, M. Kubota, S. Matsuolza, P. Ginet, J. Furtado, F. Barbier |
cr-mo steel, fracture toughness, threshold stress intensity factor, hydrogen-assisted cracking, constant displacement test, rising load test |
| Towards an Ultrasonic Guided Wave Procedure for Health Monitoring of Composite Vessels: Application to Hydrogen-Powered Aircraft |
2017 |
Journal Article |
S. Yaacoubi, P. McKeon, W. Ke, N. Declercq, F. Dahmene |
composite over-wrapped pressure vessel, finite element method, Hydrogen safety, structural health monitoring, testing procedure, ultrasonic guided waves technique |
| Towards net-zero smart system: An power synergy management approach of hydrogen and battery hybrid system with hydrogen safety consideration |
2022 |
Journal Article |
P. Hooker, J. Hoyes, J. Hall, D. Willoughby |
battery, Fuel cells, Hydrogen energy storage, Hydrogen safety, hybrid energy storage system, energy, strategy, design |
| Transform from gasoline stations to electric-hydrogen hybrid refueling stations: An islanding DC microgrid with electric-hydrogen hybrid energy storage system and its control strategy |
2022 |
Journal Article |
Xue Zhang, Wei Pei, Chunxiao Mei, Wei Deng, Jianxin Tan, Qingqing Zhang |
DC microgrid, Hydrogen energy storage, Fuzzy logic controller, energy, management, Power allocation, power-system, fuel-cell, management strategy, operation, implementation, optimization, challenges, future, Engineering |
| Turbulent premixed combustion: Flamelet structure and its effect on turbulent burning velocities |
2008 |
Journal Article |
J. Driscoll |
turbulent, premixed, combustion burning velocity, flamelet, large-eddy simulation, direct numerical-simulation, methane-air flames, surface-density, front structure, high-pressure, markstein numbers, model, gas, propagation |
| U.s. Department of Energy Hydrogen Program. Safety Codes and Standards |
2008 |
Journal Article |
A. Ruiz |
|
| Ultralow detection limit and ultrafast response/recovery of the H(2) gas sensor based on Pd-doped rGO/ZnO-SnO(2) from hydrothermal synthesis |
2022 |
Journal Article |
X. Zhang, J. Sun, K. Tang, H. Wang, T. Chen, K. Jiang, T. Zhou, H. Quan, R. Guo |
Nanosensors, sensors |
| Un-ignited and ignited high pressure hydrogen releases: Concentration - turbulence mapping and overpressure effects |
2015 |
Journal Article |
J. Daubech, J. Hebrard, S. Jallais, E. Vyazmina, D. Jamois, F. Verbecke |
delayed explosions, turbulence, high pressure jet explosion, flame behaviour, gas |
| Under-expansion jet flame propagation characteristics of premixed H2/air in explosion venting |
2021 |
Journal Article |
A. Friedrich, J. Grune, T. Jordan, A. Kotchourko, N. Kotchourko, K. Sempert, G. Stern |
Hydrogen safety, under-expansion structures, hydrogen fraction, venting diameter, duct length, high-pressure hydrogen, Spontaneous Ignition, air mixtures, underexpanded jets, expanded hydrogen, nozzle geometry, wire mesh, dynamics, release |
| Unfamiliar fuel: How the UK public views the infrastructure required to supply hydrogen for road transport |
2016 |
Journal Article |
P. Bellaby, P. Upham, R. Flynn, M. Ricci |
hydrogen-in-transport infrastructure, public engagement, contrasting travel-to-work-areas, psycho-social explanations, energy, Technology, methodology, transition, attitudes, people, risk |
