Revolutionizing photovoltaic consumption and electric vehicle charging: A novel approach for residential distribution systems-Reference-Cited by-同舟云学术

Revolutionizing photovoltaic consumption and electric vehicle charging: A novel approach for residential distribution systems

Published:2024-08-08 Issue:17 Volume:18 Page:2822-2833
ISSN:1751-8687
Container-title:IET Generation, Transmission & Distribution
language:en
Short-container-title:IET Generation Trans & Dist

Author:

Meng Qinglin¹²³⁴⁵^ORCID,Tong Xinyu¹,Hussain Sheharyar⁶^ORCID,Luo Fengzhang²⁴^ORCID,Zhou Fei⁷^ORCID,Liu Lei¹,He Ying⁸⁹^ORCID,Jin Xiaolong²⁴⁵^ORCID,Li Botong²⁴^ORCID

Affiliation:

1. State Grid Tianjin Electric Power Company Tianjin China

2. School of Electrical and Information Engineering Tianjin University Tianjin China

3. School of Electrical Engineering Tiangong University Tianjin China

4. Key Laboratory of Smart Grid of Ministry of Education Tianjin University Tianjin China

5. Key Laboratory of Smart Energy & Information Technology of Tianjin Municipality Tianjin University Tianjin China

6. The Institute of Marine Electronic and Intelligent System Ocean College Zhejiang University Zhoushan China

7. Institute of Computing and Application (Artificial Intelligence Analysis Research Center) State Grid Smart Grid Research Institute Co., Ltd. Beijing China

8. Green Hydropower Research Institute School of Mechanical Engineering Tianjin Renai College Tianjin China

9. School of Mechanical Engineering Tianjin University of Technology Tianjin China

Abstract

AbstractElectric vehicles (EVs) and small photovoltaic (PV) installations advance residential power grids by lowering charging costs and fostering eco‐friendly operations. Yet, the variable nature of EV charging presents challenges to grid reliability. This research introduces a Monte Carlo‐based simulation for predicting EV charging loads and a systematic charging method that integrates a ‘green electricity’ pricing scheme with a joint optimization model for PV and EV management. By applying an improved ant lion optimizer (IALO) algorithm enriched with differential evolution features, an optimization strategy that markedly enhances grid performance is devised. In a park scenario, this ‘green electricity’ model reduced the mean square error of EV charging load by 11.82%, smoothed the power load curve, and improved grid stability. When compared with particle swarm optimization (PSO) and grey wolf optimizer (GWO) algorithms, the IALO algorithm boosted overall revenue by 16.8% and 12.8%, increased PV utilization by 162.3% and 37.1%, and significantly cut carbon emissions by 159.6% and 31.6%, respectively. These outcomes affirm the financial, environmental, and functional benefits of our proposed approach.

Publisher

Institution of Engineering and Technology (IET)

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