Estimation of temperature change in practical hydrogen pressure tanks being filled at high pressures of 35 and 70 MPa

Masanori Monde; Peter Woodfield; Toshio Takano; Masataka Kosaka

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Estimation of temperature change in practical hydrogen pressure tanks being filled at high pressures of 35 and 70 MPa

机译：估算在35和70 MPa高压下填充的实际氢气压力罐中的温度变化

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Some complete experimental data sets, not only on the hydrogen temperature within the tank during filling, but also on the supplied temperature and pressure from the station have been opened for analysis of the temperature change with time. The data were independently obtained for 6 different conditions and have been analyzed and checked to validate the Monde et al. model. It is found that the measured temperatures are well predicted using the software based on the model and the heat loss during filling with hydrogen is also well predicted, if a suitable heat transfer coefficient is adopted.

机译：打开了一些完整的实验数据集，不仅涉及填充期间储罐内的氢气温度，而且还涉及来自站点的供应温度和压力，以分析温度随时间的变化。该数据是针对6种不同条件独立获得的，并已进行了分析和检查以验证Monde等人。模型。结果发现，如果采用合适的传热系数，则使用基于模型的软件可以很好地预测测得的温度，并且还可以很好地预测充氢过程中的热损失。

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来源
《International journal of hydrogen energy》 |2012年第7期|p.5723-5734|共12页
作者
Masanori Monde; Peter Woodfield; Toshio Takano; Masataka Kosaka;
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作者单位

Institute of Ocean Energy, Saga University, 1 Honjo-machi, Saga, 840 8502, Japan;

Griffith School of Engineering, Gold Coast Campus, Griffith University, Southport QLD 4222, Australia;

Institute of Ocean Energy, Saga University, 1 Honjo-machi, Saga, 840 8502, Japan;

Institute of Ocean Energy, Saga University, 1 Honjo-machi, Saga, 840 8502, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
hydrogen tank for fuel cell vehicle; fast filling; pressure vessel; temperature rise during filling; high pressure;

机译：燃料电池车氢罐;快速填充;压力容器;灌装过程中温度上升;高压力;
入库时间 2022-08-18 00:28:21

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1. AN INTERNATIONAL STANDARD EQUATION OF STATE FOR DIFLUOROMETHANE (R-32) FOR TEMPERATURES FROM THE TRIPLE POINT AT 136.34 K TO 435 K AND PRESSURES UP TO 70 MPA [J] . Tillnerroth R., Yokozeki A. Journal of Physical and Chemical Reference Data . 1997,第6期

机译：在136.34 K至435 K的三点温度和最高70 MPA的压力下，双氟甲烷（R-32）的国际标准状态方程
2. AN INTERNATIONAL STANDARD EQUATION OF STATE FOR DIFLUOROMETHANE (R-32) FOR TEMPERATURES FROM THE TRIPLE POINT AT 136.34 K TO 435 K AND PRESSURES UP TO 70 MPA [J] . Tillnerroth R., Yokozeki A. Journal of Physical and Chemical Reference Data . 1997,第6期

机译：在136.34 K至435 K的三点温度和最高70 MPA的压力下，双氟甲烷（R-32）的国际标准状态方程
3. Apparent molar volumes and apparent molar heat capacities of aqueous potassium hydrogen phthalate (KHP) and potassium sodium phthalate (KNaP) at temperatures from T = 278.15 K to T = 393.15 K at the pressure 0.35 MPa [J] . T. D. Ford, T. G. Call, M. L. Origlia, The Journal of Chemical Thermodynamics . 2001,第3期

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4. Estimation of final hydrogen temperatures during refueling 35MPa and 70MPa tanks [C] . Ji Cheng, Jinsheng Xiao, Pierre Benard International Conference on Applied Energy . 2017

机译：加油35MPa和70MPa罐中最终氢气温度的估计
5. Amino acids under hydrothermal conditions: Apparent molar volumes, apparent molar heat capacities, and acid /base dissociation constants for aqueous alpha-alanine, beta-alanine, glycine, and proline at temperatures from 25 to 250°C and pressures up to 30.0 MPa. [D] . Clarke, Rodney George Francis. 2000

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6. Volumetric Properties of the {x1C4mimMeSO4 + (1 − x1)MeOH} System at Temperatures from (283.15 to 333.15) K and Pressures from (0.1 to 35) MPa [O] . Dobrochna Matkowska, Tadeusz Hofman -1

机译：{x1 C4mim MeSO4 +（1−x1）MeOH}系统在（283.15至333.15）K温度和（0.1至35）MPa压力下的体积性质
7. Vapor-liquid equilibrium measurements for 5 binary mixtures involving HFO-1336mzz(E) at temperatures from 313 to 353 K and pressures up to 2.735 MPa [O] . Eric Boonaert, Alain Valtz, Julien Brocus, 2020

机译：5个二元混合物的蒸汽液平衡测量涉及HFO-1336MZMZ（e）的温度从313-353 k的温度，压力高达2.735MPa
8. Thermophysical Properties of Normal Butane from 135 to 700 K at Pressures to 70 MPa [R] . Haynes, W. M. , Goodwin, R. D. 1982

机译：正常丁烷在135至700 K压力下的热物理性能至70 mpa

Estimation of temperature change in practical hydrogen pressure tanks being filled at high pressures of 35 and 70 MPa

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