Cited By
View all- Saini KSaini MKumar ASaini D(2025)Performance analysis and optimization in renewable energy systems: a bibliometric reviewDiscover Applied Sciences10.1007/s42452-025-06585-27:3Online publication date: 25-Feb-2025
Modeling and Optimization of A RES-Hydrogen Integrated Energy System During Non-heating Period in Qingdao
Authors: 
Peng Yu, Jiawei Xing, Shumin Sun, Yan Cheng, Song YangAuthors Info & Claims
Peng Yu, Jiawei Xing, Shumin Sun, Yan Cheng, Song YangAuthors Info & ClaimsArticle No.: 23, Pages 1 - 9
Abstract
With the advantages of clean, flexible, efficient and zero carbon emission, hydrogen energy is believed to be an ideal alternative to traditional fossil fuels. Fuel cell combined heat and power (CHP) supply is an effective means to improve the efficiency of hydrogen energy utilization. Therefore, it is of great practical significance to study the optimal operation of hydrogen fuel cell CHP system. In this paper, a integrated energy system (IES) consists of renewable energy sources (RES), fuel cells, electrolyzers and energy storage components is studied and the mathematical models of the system are developed. A multi-objective optimization including cost and reliability of the system is carried out and the Pareto optimal solutions are obtained. A simulation of the system during the non-heating period of a year is also performed, and results provide guidance for the practical operation.
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Index Terms
- Modeling and Optimization of A RES-Hydrogen Integrated Energy System During Non-heating Period in Qingdao
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Published In
December 2023
292 pages
ISBN:9798400709401
DOI:10.1145/3632314
Copyright © 2023 ACM.
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Published: 09 December 2023
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ISIA 2023
ISIA 2023: 2023 International Conference on Intelligent Sensing and Industrial Automation
December 9 - 10, 2023
Virtual Event, China
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View all- Saini KSaini MKumar ASaini D(2025)Performance analysis and optimization in renewable energy systems: a bibliometric reviewDiscover Applied Sciences10.1007/s42452-025-06585-27:3Online publication date: 25-Feb-2025
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