Investigation on localized fire test method for on-board high-pressure hydrogen storage tanks

被引：0

作者：

Zheng, Jinyang ^{[1
]}

Ou, Kesheng ^{[1
]}

Hua, Zhengli ^{[1
]}

Xu, Ping ^{[2
]}

He, Yuntang ^{[3
]}

Zhao, Yongzhi ^{[1
]}

Hu, Jun ^{[4
]}

Han, Bing ^{[4
]}

机构：

[1] Institute of Process Equipment, Zhejiang University, Hangzhou 310027, China

[2] Institute of Applied Mechanics, Zhejiang University, Hangzhou 310027, China

[3] China Automotive Technology and Research Center, Tianjin 300162, China

[4] Dalian Boiler and Pressure Vessel Supervision and Inspection Institute, Dalian 116013, China

来源：

Taiyangneng Xuebao/Acta Energiae Solaris Sinica | 2014年 / 35卷 / 01期

关键词：

Fuel cells - Fuel tanks - Fires - Flammability testing;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Safety performance of high-pressure hydrogen storage tanks in Hydrogen Fuel Cell Vehicles (HFCVs) under fire condition has drawn extensive attention. Localized fire test method first proposed in Global Technical Regulation for HFCVs will have a significant impact on the development of HFCVs in China. Based on the analysis of limitations of bonfire test method for high-pressure hydrogen storage tanks, the technical rationale, main content and feature of localized fire test method were systematically studied. Challenges for the development of high-pressure hydrogen storage tanks and compressed hydrogen storage systems in China were also indicated. Some suggestions for the related standard drafts in China were proposed in this paper.

引用

页码：58 / 63

共 50 条

[41] Fire Safety Evaluation of High-Pressure Ammonia Storage Systems
Chung, Yong Ho
Lee, Won-Ju
Kang, Jun
Yoon, Sung Hwan
ENERGIES, 2022, 15 (02)
[42] EXPERIMENTAL INVESTIGATION OF FREE CONVECTIVE HEAT TRANSFER ALONG INCLINED PIPES IN HIGH-PRESSURE CRYOGENIC STORAGE TANKS
Langebach, R.
Haberstroh, Ch.
ADVANCES IN CRYOGENIC ENGINEERING, VOLS 57A AND 57B, 2012, 1434 : 732 - 739
[43] High-pressure torsion for new hydrogen storage materials
Edalati, Kaveh
Akiba, Etsuo
Horita, Zenji
SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS, 2018, 19 (01) : 185 - 193
[44] Development of a high-pressure microbalance for hydrogen storage materials
Vestbo, Andreas Peter
Jensen, Jens Oluf
Bjerrum, Niels J.
JOURNAL OF ALLOYS AND COMPOUNDS, 2007, 446 : 703 - 706
[45] Thermodynamic analysis of high-pressure hydrogen storage tank discharge in fire scenarios: Experimental and theoretical modelling
Ma, Xin
Li, Bei
Han, Bing
Jin, Xin
Liu, Yan
Bi, Ming-Shu
Shu, Chi-Min
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2025, 114 : 355 - 367
[46] Comparison of optimal design methods for type 3 high-pressure storage tanks
Francescato, P.
Gillet, A.
Leh, D.
Saffre, P.
COMPOSITE STRUCTURES, 2012, 94 (06) : 2087 - 2096
[47] ACOUSTIC-EMISSION MONITORING OF COMPOSITE HIGH-PRESSURE FLUID STORAGE TANKS
LEFLOCH, C
NDT INTERNATIONAL, 1986, 19 (04): : 259 - 262
[48] Ultimate pressure-bearing capacity of Type III onboard high-pressure hydrogen storage tanks under typical accident scenarios
Wang, Xueying
Li, Bei
Jin, Xin
Han, Bing
Shu, Chi-Min
JOURNAL OF ENERGY STORAGE, 2023, 63
[49] Hybrid hydrogen storage vessel, a novel high-pressure hydrogen storage vessel combined with hydrogen storage material
Takeichi, N
Senoh, H
Yokota, T
Tsuruta, H
Hamada, K
Takeshita, HT
Tanaka, H
Kiyobayashi, T
Takano, T
Kuriyama, N
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2003, 28 (10) : 1121 - 1129
[50] High-surface-area biocarbon for reversible on-board storage of natural gas and hydrogen
Pfeifer, Peter
Burress, Jacob W.
Wood, Mikael B.
Lapilli, Cintia M.
Barker, Sarah A.
Pobst, Jeffrey S.
Cepell, Raina J.
Wexler, Carlos
Shah, Parag S.
Gordon, Michael J.
Sup-Pes, Galen J.
Buckley, S. Philip
Radke, Darren J.
Ilavsky, Jan
Dillon, Anne C.
Parilla, Philip A.
Benham, Mi-Chael
Roth, Michael W.
LIFE-CYCLE ANALYSIS FOR NEW ENERGY CONVERSION AND STORAGE SYSTEMS, 2008, 1041 : 63 - 74

← 1 2 3 4 5 →