Capacity Optimal Configuration of Wind/PV Hybrid Power System Based on Carbon Dioxide Emission

doi:10.3969/j.issn.1000－7229.2017.03.015

Abstract

Abstract:

The capacity configuration of the wind/PV hybrid power generation system is related to the benefit of reducing emission and the cost of the system. According to the systems life cycle, this paper establishes the calculation model of carbon dioxide emission of wind power generator, photovoltaic cell panel and storage battery in different stages, and proposes the calculation formula of carbon dioxide emission of wind/PV hybrid power generation system. Under the constraints of system cost, power output fluctuation, complementary advantages and spare capacity, the optimal capacity of wind solar complementary power system is optimized with the minimum carbon dioxide emissions as the optimization objective. Finally, taking the wind/PV hybrid power system in somewhere as an example, its capacity configuration is optimized, whose results verify the feasibility of the scheme.

Key words: wind/PV hybrid power generation system, carbon dioxide emission, capacity, optimal allocation

CLC Number:

TM 619

TANG Hao，YANG Guohua，WANG Pengzhen，LI Qing， ZHANG Lina，LIU Shuai，QIN Junqin. Capacity Optimal Configuration of Wind/PV Hybrid Power System Based on Carbon Dioxide Emission[J]. Electric Power Construction, 2017, 38(3): 108-.

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