Simulation and analysis of integrated energy conversion and storage systems using CloudPSS-IESLab

Under the public awareness of global climate change, fossil resource depletion, environmental pollution and energy structure, countries have actively promoted clean and sustainable energy system. The integrated energy system (IES), which includes energy conversion and storage, is able to balance unc...

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Bibliographic Details
Published in:Energy reports 2022-04, Vol.8, p.1372-1382
Main Authors: Tang, Xueyong, Bai, Hao, Zhang, Yu, Pan, Shuhui, Wu, Peng, Zhou, Changcheng, Deng, Pu, Lei, Jinyong, Li, Qingsheng, Yuan, Zhiyong
Format: Article
Language:English
Subjects:
Capacity configuration
CloudPSS-IESLab
Extreme condition
Integrated energy system
Simulation
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Summary:Under the public awareness of global climate change, fossil resource depletion, environmental pollution and energy structure, countries have actively promoted clean and sustainable energy system. The integrated energy system (IES), which includes energy conversion and storage, is able to balance uncertain renewable energy, and demonstrate a significant improvement on low-carbon emission, compared to traditional energy system. However, the development of IES demands sufficient modeling,​ simulation and technical support. In this paper, an IES is modeled, simulated and analyzed with different operation conditions by CloudPSS-IESLab, a general IES design platform with steady-state multi-energy flow solver. Then capacity configurations of photovoltaic and battery are investigated. The potential integrated energy system solutions are analyzed and compared using CloudPSS-IESLab and the feasibility are validated.
ISSN:2352-4847
2352-4847
DOI:10.1016/j.egyr.2021.11.098