Mitigating distribution transformer loss of life through combined integration of rooftop solar photovoltaic installations and electric vehicle charging

This study examines the relationship between rooftop solar photovoltaic (RTSPV) systems and electric vehicles (EVs) as they integrate into our power grid. Specifically, we focus on how EV charging affects the hot-spot temperature (HST) of oil-type distribution transformers (DTs) and the resulting lo...

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Bibliographic Details
Published in:e-Prime 2025-03, Vol.11, p.100867, Article 100867
Main Authors: Gaikwad, Sunil, Mehta, Hrishikesh
Format: Article
Language:English
Subjects:
Aging
Distribution transformer
Electric vehicles
Equivalent Aging Acceleration Factor
Monte Carlo simulation
Solar photovoltaic
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Summary:This study examines the relationship between rooftop solar photovoltaic (RTSPV) systems and electric vehicles (EVs) as they integrate into our power grid. Specifically, we focus on how EV charging affects the hot-spot temperature (HST) of oil-type distribution transformers (DTs) and the resulting loss of life (LOL) for these transformers, while considering different levels of RTSPV adoption in residential neighborhoods in India. Using a Monte Carlo algorithm, we simulate typical EV usage patterns and gather RTSPV data from a detailed survey of rooftop capacities in the Modi Ganpati area of Pune, which serves as our illustrative case study. Additionally, we analyze daily energy consumption profiles from the local utility to provide a comprehensive perspective. Our simulations, conducted with both MATLAB and Python, reveal that when EV charging aligns with RTSPV generation during the day, it can significantly reduce the LOL of distribution transformers. This finding presents a valuable opportunity for utilities to alleviate the pressure on their power supply systems, potentially delaying the need for costly upgrades or expansions to accommodate the increasing demands from the growing EV market. •Examines RTSPV and EV integration effects on distribution transformer (DT) lifespan.•Uses Monte Carlo simulations for EV usage and survey data for RTSPV capacities.•Shows a 9.81% DT life loss from EV use and increased hot-spot temperatures.•Reports a 70.03% life extension at 40% RTSPV penetration.•Highlights SPV and EV synergy in reducing transformer aging effects.
ISSN:2772-6711
2772-6711
DOI:10.1016/j.prime.2024.100867