Development of a solar-powered photovoltaic (PV) fault location system for medium voltage line in Tanzania

This paper presents a fault location system designed for medium-voltage (MV) distribution lines in Tanzania, where frequent outages disrupt economic and social activities. Existing manual fault location methods are slow and costly, while high-voltage solutions are expensive and unsuitable for MV sys...

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Vydáno v:	Electrical engineering Ročník 107; číslo 12; s. 15441 - 15455
Hlavní autoři:	Ahmed, Salum, Mbuya, Benson H., Kichonge, Baraka, Maagi, Mtaki Thomas, Kivevele, Thomas
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2025 Springer Nature B.V
Témata:	Artificial intelligence Blackouts Costs Data analysis Economics and Management Efficiency Electrical Engineering Electrical Machines and Networks Energy Policy Engineering Fault detection Fault location Global positioning systems GPS Infrastructure Localization Original Paper Outages Performance evaluation Photovoltaic cells Power Electronics Power lines Real time Reliability Resilience Root-mean-square errors Solar energy Sustainable development Unmanned aerial vehicles Tanzania Real-time current measurement Arduino IDE Fault current magnitude MV distribution lines Solar-powered photovoltaic (PV) system Fault location system
ISSN:	0948-7921, 1432-0487
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Shrnutí:	This paper presents a fault location system designed for medium-voltage (MV) distribution lines in Tanzania, where frequent outages disrupt economic and social activities. Existing manual fault location methods are slow and costly, while high-voltage solutions are expensive and unsuitable for MV systems. Inefficient fault detection extends restoration times, undermining grid reliability and impeding development in resource-constrained regions. This study aims to develop a solar-powered photovoltaic fault location system that leverages real-time current measurements analyzed from TANESCO’s operational data to reduce outage durations and enhance network resilience. Prototype integrates SCT013 current sensors and an ATmega328P-PU microcontroller, programmed via the Arduino IDE. The system continuously monitors fault currents and triggers GSM-based SMS alerts with precise GPS coordinates. Data analysis using MATLAB and Python evaluates system accuracy and response time. Tests on a 220 V radial feeder revealed detection times of 5–6 s a > 99% improvement over traditional manual methods (≈ 900 s). Mean Absolute Error (0.2325 A) and RMSE (0.234 A) confirm high precision relative to typical MV fault currents (50–500 A). These results demonstrate a robust, low-cost solution for autonomous fault localization, offering rapid, near real-time fault notification. This approach provides a practical solution for improving the reliability and resilience of Tanzania’s MV power distribution lines, contributing to the nation’s sustainable development goals.
Bibliografie:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14
ISSN:	0948-7921 1432-0487
DOI:	10.1007/s00202-025-03335-w