| 7253 - 7253 |
Special issue on "The 6th International Conference on Hydrogen Safety (ICHS 2015), 19-21 October 2015, Yokohama, Japan"
Carcassi M, Wen J, Dorofeev S |
| 7254 - 7262 |
Hydrogen storage: Recent improvements and industrial perspectives
Barthelemy H, Weber M, Barbier F |
| 7263 - 7274 |
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
Marchi CS, Hecht ES, Ekoto IW, Groth KM, LaFleur C, Somerday BP, Mukundan R, Rockward T, Keller J, James CW |
| 7275 - 7289 |
IPHE regulations codes and standards working group - Type IV COPV round robin testing
Maes M, Starritt L, Zheng JY, Ou K, Keller J |
| 7290 - 7296 |
Public perception on hydrogen infrastructure in Japan: Influence of rollout of commercial fuel cell vehicles
Itaoka K, Saito A, Sasaki K |
| 7297 - 7303 |
Modelling heat transfer in an intumescent paint and its effect on fire resistance of on-board hydrogen storage
Kim Y, Makarov D, Kashkarov S, Joseph P, Molkov V |
| 7304 - 7313 |
CFD simulations of filling and emptying of hydrogen tanks
Melideo D, Baraldi D, Acosta-Iborra B, Cebolla RO, Moretto P |
| 7314 - 7321 |
Enhancing safety of hydrogen containment components through materials testing under in-service conditions
Somerday BP, Campbell JA, Lee KL, Ronevich JA, Marchi CS |
| 7322 - 7330 |
HAZID for CO2-Free Hydrogen Supply Chain FEED (Front End Engineering Design)
Oyama S, Satoh S, Sakanaka S |
| 7331 - 7339 |
Characteristics of hydrogen leakage sound from a fuel-cell vehicle by hearing
Maeda K, Tamura Y |
| 7340 - 7352 |
Self-ignition of hydrogen-nitrogen mixtures during high-pressure release into air
Rudy W, Teodorczyk A, Wen J |
| 7353 - 7359 |
Numerical simulation of detonation failure and re-initiation in bifurcated tubes
Heidari A, Wen J |
| 7360 - 7365 |
Outward propagation velocity and acceleration characteristics in hydrogen-air deflagration
Katsumi T, Aida T, Aiba K, Kadowaki S |
| 7366 - 7373 |
Experimental determination of critical conditions for hydrogen-air detonation propagation in partially confined geometry
Rudy W, Dziubanii K, Zbikowski M, Teodorczyk A |
| 7374 - 7379 |
An experimental study on the mechanism of self-ignition of high-pressure hydrogen
Kaneko W, Ishii K |
| 7380 - 7392 |
Dynamics of ignition of stoichiometric hydrogen-air mixtures by moving heated particles
Melguizo-Gavilanes J, Coronel S, Mevel R, Shepherd JE |
| 7393 - 7403 |
Hot surface ignition of stoichiometric hydrogen-air mixtures
Melguizo-Gauilanes J, Boeck LR, Meuel R, Shepherd JE |
| 7404 - 7412 |
Hydrogen effects on X80 pipeline steel in high-pressure natural gas/hydrogen mixtures
Meng B, Gu CH, Zhang L, Zhou CS, Li XY, Zhao YZ, Zheng JY, Chen XY, Han Y |
| 7413 - 7421 |
Flammability profiles associated with high-pressure hydrogen jets released in close proximity to surfaces
Hall JE, Hooker P, O'Sullivan L, Angers B, Hourri A, Bernard P |
| 7422 - 7428 |
Threshold stress intensity factor for hydrogen-assisted cracking of CR-MO steel used as stationary storage buffer of a hydrogen refueling station
Matsumoto T, Kubota M, Matsuolza S, Ginet P, Furtado J, Barbier F |
| 7429 - 7439 |
Comparative study of regulations, codes and standards and practices on hydrogen fuelling stations
Pique S, Weinberger B, De-Dianous V, Debray B |
| 7440 - 7446 |
Boundary layer effects on the critical nozzle of hydrogen sonic jet
Afroosheh M, Vakilimoghaddam F, Paraschivoiu M |
| 7447 - 7456 |
Modelling and simulation of high-pressure hydrogen jets using notional nozzle theory and open source code OpenFOAM
Keenan JJ, Makarov DV, Molkov VV |
| 7457 - 7466 |
Comparison of two-layer model for hydrogen and helium jets with notional nozzle model predictions and experimental data for pressures up to 35 MPa
Li XF, Christopher DM, Hecht ES, Ekoto IW |
| 7467 - 7473 |
Hydrogen risk analysis for a generic nuclear containment ventilation system
Xu Z, Jordan T |
| 7474 - 7484 |
Composite gas cylinders - Probabilistic analysis of minimum load cycle requirements
Mair GW, Becker B, Duffner E, Saul H, Schoppa A |
| 7485 - 7493 |
HyRAM: A methodology and toolkit for quantitative risk assessment of hydrogen systems
Groth KM, Hecht ES |
| 7494 - 7503 |
Maximum overpressure vs. H-2 concentration non-monotonic behavior in vented deflagration. Experimental results
Schiavetti M, Carcassi M |
| 7504 - 7512 |
Mixed e-learning and virtual reality pedagogical approach for innovative hydrogen safety training of first responders
Tretsiakova-McNally S, Maranne E, Verbecke F, Molkov V |
| 7513 - 7520 |
Modeling thermal response of polymer composite hydrogen cylinders subjected to external fires
Saldi ZS, Wen JX |
| 7521 - 7528 |
Estimation of final hydrogen temperature from refueling parameters
Xiao JS, Benard P, Chahine R |
| 7529 - 7535 |
Application of quantitative risk assessment for performance-based permitting of hydrogen fueling stations
LaFleur AC, Muna AB, Groth KM |
| 7536 - 7541 |
First responder training: Supporting commercialization of hydrogen and fuel cell technologies
Barilo NF, Hamilton JJ, Weiner SC |
| 7542 - 7550 |
Comparison of helium and hydrogen releases in 1 m(3) and 2 m(3) two vents enclosures: Concentration measurements at different flow rates and for two diameters of injection nozzle
Bernard-Michel G, Houssin-Agbomson D |
| 7551 - 7559 |
Safety concept of nuclear cogeneration of hydrogen and electricity
Verfondern K, Yan X, Nishihara T, Allelein HJ |
| 7560 - 7564 |
The possibility of an accidental scenario for marine transportation of fuel cell vehicle Hydrogen releases from TPRD by radiant heat from lower deck
Tamura Y, Sato K |
| 7565 - 7576 |
Experimental studies on vented deflagrations in a low strength enclosure
Hooker P, Hoyes JR, Hall J, Willoughby D |
| 7577 - 7588 |
Hydrogen jet fires in a passively ventilated enclosure
Hooker P, Hall J, Hoyes JR, Newton A, Willoughby D |
| 7589 - 7599 |
Detonation wave propagation in semi-confined layers of hydrogen-air and hydrogen-oxygen mixtures
Grune J, Sempert K, Friedrich A, Kuznetsov M, Jordan T |
| 7600 - 7607 |
Guidelines and recommendations for indoor use of fuel cells and hydrogen systems
Fuster B, Houssin-Agbomson D, Jallais S, Vyazmina E, Guy DN, Bernard-Michel G, Kuznetsov M, Molkov V, Chernyavskiy B, Shentsov V, Makarov D, Dey R, Hooker P, Baraldi D, Weidner E, Melideo D, Palmisano V, Venetsanos A, Kinderen JD |
| 7608 - 7616 |
Numerical study on the influence of different boundary conditions on the efficiency of hydrogen recombiners inside a car garage
Baggemann J, Jahn W, Kelm S, Reinecke EA, Allelein HJ |
| 7617 - 7624 |
Simulation analysis on the risk of hydrogen releases and combustion in subsea tunnels
Bie HY, Hao ZR |
| 7625 - 7632 |
Overview of the DOE hydrogen safety, codes and standards program part 2: Hydrogen and fuel cells: Emphasizing safety to enable commercialization
Barilo NF, Weiner SC, James CW |
| 7633 - 7643 |
Development of a model evaluation protocol for CFD analysis of hydrogen safety issues the SUSANA project
Baraldi D, Melideo D, Kotchourko A, Ren K, Yanez J, Jedicke O, Giannissi SG, Tolias IC, Venetsanos AG, Keenan J, Makarov D, Molkov V, Slater S, Verbecke F, Duclos A |
| 7644 - 7650 |
Explosion venting of rich hydrogen-air mixtures in a small cylindrical vessel with two symmetrical vents
Guo J, Wang CJ, Liu XY, Chen Y |
| 7651 - 7656 |
Accidental hydrogen release in a gas chromatograph laboratory: A case study
Henriksen M, Bjerketvedt D, Vaagsaether K, Gaathaug AV, Skjold T, Middha P |
| 7657 - 7663 |
Numerical simulation of flame acceleration and deflagration-to-detonation transition in hydrogen-air mixtures with concentration gradients
Wang CJ, Wen JX |
| 7664 - 7671 |
Hydrogen monitoring requirements in the global technical regulation on hydrogen and fuel cell vehicles
Buttner W, Rivkin C, Burgess R, Hartmann K, Bloomfield I, Bubar M, Post M, Boon-Brett L, Weidner E, Moretto P |
| 7672 - 7682 |
Release and dispersion modeling of cryogenic under-expanded hydrogen jets
Venetsanos AG, Giannissi SG |
| 7683 - 7690 |
Propagation of blast waves from a bursting vessel with internal hydrogen-air deflagration
Mogi T, Matsunaga T, Dobashi R |
| 7691 - 7697 |
Experimental investigation of spherical-flame acceleration in lean hydrogen-air mixtures
Bauwens CRL, Bergthorson JM, Dorofeev SB |
| 7698 - 7706 |
Risk and sustainability analysis of complex hydrogen infrastructures
Markert F, Marangon A, Carcassi M, Duijm NJ |
| 7707 - 7715 |
Analysis of acoustic pressure oscillation during vented deflagration and proposed model for the interaction with the flame front
Schiavetti M, Carcassi M |
| 7716 - 7720 |
Study of a post-fire verification method for the activation status of hydrogen cylinder pressure relief devices
Yamazaki K, Tamura Y |
| 7721 - 7730 |
3D risk management for hydrogen installations
Skjold T, Siccama D, Hisken H, Brambilla A, Middha P, Groth KM, LaFleur AC |
| 7731 - 7739 |
CFD evaluation against a large scale unconfined hydrogen deflagration
Tolias IC, Venetsanos AG, Markatos N, Kiranoudis CT |
| 7740 - 7748 |
Hydrogen explosions in 20 ' ISO container
Sommersel OK, Vaagsaether K, Bjerketvedt D |
| 7749 - 7754 |
In situ X-ray absorption spectroscopy study on water formation reaction of palladium metal nanoparticle catalysts
Matsumura D, Taniguchi M, Tanaka H, Nishihata Y |
| 7755 - 7760 |
Visualization of spontaneous ignition under controlled burst pressure
Yamashita K, Saburi T, Wada Y, Asahara M, Mogi T, Hayashi AK |
