THEORETICAL ANALYSIS OF INTEGRATED APPLICATION OF PHOTOVOLTAIC HYDROGEN PRODUCTION BASED ON EQUIVALENT ELECTRIC EXCHANGE

Liu Cong; Gao Xueqiang; Zhao Wang; Liu Jun; Yin Likun

doi:10.19912/j.0254-0096.tynxb.2022-0346

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Acta Energiae Solaris Sinica ›› 2022, Vol. 43 ›› Issue (6) : 435-440. DOI: 10.19912/j.0254-0096.tynxb.2022-0346

THEORETICAL ANALYSIS OF INTEGRATED APPLICATION OF PHOTOVOLTAIC HYDROGEN PRODUCTION BASED ON EQUIVALENT ELECTRIC EXCHANGE

Liu Cong, Gao Xueqiang, Zhao Wang, Liu Jun, Yin Likun

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Abstract

This paper proposes a concept of equivalent electric exchange. That is, the surplus power will be output to the grid as a type of hypothetical energy storage when the photovoltaic power is sufficient over the basic demand, otherwise, the surplus power of hypothetical energy storage will be input from the grid for hydrogen production when the photovoltaic power is insufficient over the basic demand for the stable hydrogen production. So that, the installed capacity of water electrolysis equipment will be reduced, and the effective utilization time of water electrolysis equipment as well as the proportion of photovoltaic power for hydrogen production will be increased, resulting in the investment of water electrolysis equipment reduced. Furthermore, the actual output curve of photovoltaics is given to expound the significance of equivalent electric exchange in the design of photovoltaic hydrogen production project.

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photovoltaic / hydrogen production / electrical energy storage / equivalent electric exchange / integrated

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Liu Cong, Gao Xueqiang, Zhao Wang, Liu Jun, Yin Likun. THEORETICAL ANALYSIS OF INTEGRATED APPLICATION OF PHOTOVOLTAIC HYDROGEN PRODUCTION BASED ON EQUIVALENT ELECTRIC EXCHANGE[J]. Acta Energiae Solaris Sinica. 2022, 43(6): 435-440 https://doi.org/10.19912/j.0254-0096.tynxb.2022-0346

References

[1] 符冠云. 氢能在我国能源转型中的地位和作用[J]. 中国煤炭, 2019, 45(10): 15-21.
FU G Y.The status and role of hydrogen energy in China’s energy transformation[J]. China coal, 2019, 45(10): 15-21.
[2] 罗佐县, 曹勇. 氢能产业发展前景及其在中国的发展路径研究[J]. 中外能源, 2020, 25(2): 9-15.
LUO Z X, CAO Y.Development prospect of hydrogen energy industry and its development path in China[J]. Sino-global energy, 2020, 25(2): 9-15.
[3] 邹才能, 熊波, 薛华庆, 等. 新能源在碳中和中的地位与作用[J]. 石油勘探与开发, 2021, 48(2): 411-420.
ZOU C N, XIONG B, XUE H Q, et al.The role of new energy in carbon neutral[J]. Petroleum exploration and development, 2021, 48(2): 411-420.
[4] 韩红梅, 杨铮, 王敏, 等. 我国氢气生产和利用现状及展望[J]. 中国煤炭, 2021, 47(5): 59-63.
HAN H M, YANG Z, WANG M, et al.The current situation and prospect of hydrogen production and utilization in China[J]. China coal, 2021, 47(5): 59-63.
[5] 毛保华, 卢霞, 黄俊生, 等. 碳中和目标下氢能源在我国运输业中的发展路径[J]. 交通运输系统工程与信息, 2021, 21(6): 234-243.
MAO B H, LU X, HUANG J S, et al.On development path of hydrogen energy technology in China’s transportation system under carbon neutrality goal[J]. Journal of transportation systems engineering and information technology, 2021, 21(6): 234-243.
[6] 甘凤丽, 江霞, 常玉龙, 等. 石化行业碳中和技术路径探索[J]. 化工进展, 2021, 48(2): 411-420.
GAN F L, JIANG X, CHANG Y L, et al.Exploration of carbon neutral technology path in petroleum industry[J]. Chemical industry and engineering progress, 2021, 48(2): 411-420.
[7] 蒋敏华, 肖平, 刘入维, 等. 氢能在我国未来能源系统中的角色定位及“再电气化”路径初探[J]. 热力发电, 2020, 49(1): 1-9.
JIANG M H, XIAO P, LIU R W, et al.Ther role of hydrogen energy in China’s future energy system and preliminary study on the route of re-electrification[J]. Thermal power generation, 2020, 49(1): 1-9.
[8] 刘磊. 浅析氢能产业对国家和地区能源供给的保障作用[J]. 北方经济, 2021(4): 29-32.
LIU L.A analysis on the guarantee effect of hydrogen energy industry on national and regional energy supply[J]. Northern economy, 2021(4): 29-32.
[9] 李建林, 梁忠豪, 梁丹曦, 等. “双碳”目标下绿氢制备及应用技术发展现状综述[J]. 分布式能源, 2021, 6(4): 25-33.
LI J L, LIANG Z H, LIANG D X, et al.Overview of development status of green hydrogen production and application technology under targets of carbon peak and carbon neutrality[J]. Distributed energy, 2021, 6(4): 25-33.
[10] 赵英杰, 易群, 王涛, 等. 煤—焦—氢—铁产业链发展关键技术与战略思考[J]. 中国工程科学, 2021, 23(5): 103-115.
ZHAO Y J, YI Q, WANG T, et al.Key technologies and strategic thinking for the coal-coking-hydrogen-steel industry chain in China[J]. Chinese engineering sciences, 2021, 23(5): 103-115.
[11] 中国氢能联盟. 中国氢能源及燃料电池产业发展报告——碳中和战略下的低碳清洁供氢体系[M]. 北京: 人民日报出版社, 2021.
Union for hydrogen energy in China. A report on development of China’s hydrogen energy and fuel cell industry-low carbon and clean hydrogen supply system with carbon neutrality strategy[M]. Beijing: People’s Daily Press, 2021.
[12] 王培灿, 万磊, 徐子昂, 等. 碱性膜电解水制氢技术现状与展望[J]. 化工学报, 2021, 72(12): 6161-6175.
WANG P C, WAN L, XU Z A, et al.Hydrogen production based-on anion exchange membrane water electrolysis: a critical review and perspective[J]. CIESC journal, 2021, 72(12): 6161-6175.