Godfrey Chugulu scite author profile

Inefficient fault management in electrical Secondary Distribution Network (SDN) is one of the major challenges facing most power utility companies around the world including Tanzania. Currently, faults management processes from detection to clearance are done manually due to the lack of visibility in SDN resulting to long Mean Time To Repair (MTTR) and high operational costs. Advancements in Information and Communication Technology (ICT) and sensing technologies have made it possible to have cost effective electrical power network visibility solutions. This study proposes algorithms that enhance fault detection and monitoring in the Tanzania SDN based on distributed processing architecture. The proposed algorithms include sensing and data acquisition, fault detection, localization and visualization. The algorithms were deployed and tested on live network at

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A Proposed Secure Hybrid, Hierarchical Communication Architecture to Facilitate Fault Prediction in SDPN

Bitebo

Chugulu

Makota

et al. 2021

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Proposed Practical Communication Architecture for Automatic Fault Detection and Clearance in Secondary Distribution Power Network

Chugulu

Simba²,

Lujara³

2020

ijSmartGrid

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A versatile yet secure communication architecture is important for smart grid (SG) applications. Most developing countries are currently deploying communication infrastructure for SG implementation. Survey in literature shows automated protection and control is already done in generation, transmission and primary distribution parts of the grid so as to guarantee reliable power supply to customers. However, secondary distribution power network (SDPN) is usually not monitored. Most of the published studies dealing with communication architectures in SDPN have focused on providing solutions for home automations and smart metering applications but little attention is paid to actual power utilities’ needs and implementation challenges facing power utilities specifically when detecting and clearing faults automatically in SDPN. Most power utility companies in developing countries and Tanzania in particular face a lot of challenges when dealing with faults management in the SDPN. This is due to poorly planned and unmonitored low voltage infrastructure. In this paper, practical requirements for SDPN communication architectures are established through challenge driven education (CDE) approach and thereafter, a practical communication architecture appropriate for Tanzania Electric Supply Company Limited (TANESCO) to enable automatic and real time faults detection and clearance in SDPN is proposed. Simulation results show that the developed architecture can successfully be used to practically detect and clear faults at SDPN since it introduces an overall end to end average delay of 1.362ms which is lower than what is specified by SG application standard delay time for distribution automation (100ms).

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Godfrey Chugulu

Communication Architecture for Automatic Faults Detection and Clearance in Secondary Distribution Power Grid: The Case of TANESCO

Enhancing Faults Monitoring in Secondary Electrical Distribution Network

A Proposed Secure Hybrid, Hierarchical Communication Architecture to Facilitate Fault Prediction in SDPN

Proposed Practical Communication Architecture for Automatic Fault Detection and Clearance in Secondary Distribution Power Network

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