Research on Household Charging Optimization of Electric Vehicles Based on Smart Load

Xinyuan	      Zhang; Gang	      Ma; Jie	      Lyu; Xuehong	      Wu; Mei	      Zheng

Abstract

Background: With the tremendous changes in the world’s fuel structure, the Electric Vehicle (EV) has become a powerful means of mitigating energy and environmental issues.

Objective: However, when an electric vehicle is connected to home, it will cause load fluctuation, which threatens the safe and smooth operation of the user's electricity.

Methods: Therefore, in order to solve the problem of power instability when the electric vehicle is connected to home, this paper proposes an optimization strategy for household charging based on Smart Load (SL).

Results: After the daily load fluctuation model of electric vehicle family charging is constructed, the Particle Swarm Optimization (PSO) algorithm is combined to establish the electric vehicle family charging optimization model.

Conclusion: The analysis of the example shows that the proposed method can stabilize the household power, which can effectively solve the adverse effects caused by excessive fluctuation of daily load in the family.

Keywords: Electric vehicle charging, electric spring, smart load, particle swarm optimization, smart load, monte carlo method.

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Graphical Abstract

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DOI https://dx.doi.org/10.2174/2352096513666200309105139	Print ISSN 2352-0965
Publisher Name Bentham Science Publisher	Online ISSN 2352-0973

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