Framework for policy prescription to sustainably steer stochastic penetration of electric vehicles and solar PV in distribution network of a developing country

IF 4.2 Q2 ENERGY & FUELS Renewable Energy Focus Pub Date : 2024-02-03 DOI:10.1016/j.ref.2024.100548
Rimsha Razaq , Kashif Imran , Raveena Kumari , Abdul Kashif Janjua , Maha Iftikhar , Jiangfeng Zhang , Ammar Kharal
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Abstract

Cash-strapped distribution companies of developing countries face stochastic penetrations of solar photovoltaic units (PVs) and electric vehicles (EVs) while planning to manage their uncertain growth trajectories. Since Pakistan’s power distribution sector is not technically and financially sound, this research presents a framework for policy prescription to avoid dangerously burdening distribution companies or deteriorating the grid conditions. The EV load model considers EVs' arrival and departure times based on a survey of daily commuters. The Burr distribution function is used for selecting sizes of the PVs for grid integration because it best fits sampled data of installed PVs in the country. After stochastically selecting network nodes for integrating EVs and PVs to mimic their locational growth, technical and financial parameters are evaluated with and without the net metering effect. At peak PV hour and higher PV penetration of 50%, voltage limit conformance improves from 88% to 94% if net metering is not allowed. Results show that annual net revenue increases with rising EV penetration and always remains positive in the absence of PV. However, irrespective of EV penetration level, even 25% PV penetration and consequent loss of cash inflows lead to negative net revenues. The study concludes that excessive PV penetration with net metering causes voltage instability and negative net revenues, whereas EV integration can reduce both effects. A network-wide extension of our research methodology, to representative feeders selected by clustering, is proposed as a framework for policy prescription to steer the growth of EVs and PVs integration sustainably.

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在发展中国家配电网络中可持续地引导电动汽车和太阳能光伏发电随机渗透的政策处方框架
发展中国家资金短缺的配电公司在计划管理其不确定的增长轨迹时,面临着太阳能光伏发电设备(PV)和电动汽车(EV)随机渗透的问题。由于巴基斯坦的配电部门在技术和财务上都不健全,本研究提出了一个政策处方框架,以避免给配电公司带来危险负担或恶化电网状况。电动汽车负载模型根据对每日通勤者的调查,考虑了电动汽车的到达和离开时间。Burr 分布函数用于选择并网光伏的大小,因为它最符合国内光伏安装的抽样数据。在随机选择用于整合电动汽车和光伏发电的网络节点以模拟其位置增长后,对有无净计量效应的技术和财务参数进行了评估。在光伏发电高峰时段,光伏发电渗透率达到 50%,如果不允许净计量,电压限值符合率将从 88% 提高到 94%。结果表明,年净收益随着电动汽车渗透率的提高而增加,在没有光伏发电的情况下始终保持正值。然而,无论电动汽车渗透率高低,即使 25% 的光伏渗透率和随之而来的现金流入损失也会导致负净收益。研究得出的结论是,过高的光伏渗透率和净计量会导致电压不稳定和负净收益,而电动汽车集成则可以减少这两种影响。建议将我们的研究方法扩展到全网,通过聚类选择具有代表性的馈电线路,作为政策处方框架,以可持续地引导电动汽车和光伏发电一体化的发展。
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来源期刊
Renewable Energy Focus
Renewable Energy Focus Renewable Energy, Sustainability and the Environment
CiteScore
7.10
自引率
8.30%
发文量
0
审稿时长
48 days
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