Abstract
Energy demand has constantly been on the rise due to aggressive industrialization and civilization. This rise in energy demand results in the massive penetration of distributed generation (DG) in the distribution network (DN) which has been a holistic approach to enhance the capacity of distribution networks. However, this has led to a number of issues in the low voltage network, one of which is the voltage rise problem. This happens when generation exceeds demand thereby causing reverse power flow and consequently leading to overvoltage. A number of methods have been discussed in the literature to overcome this challenge ranging from network augmentation to active management of the distribution networks. This paper discusses the issue of voltage rise problem and its impact on distribution networks with high amounts of distributed energy resources (DERs). It presents different DG technologies such as those based on conventional and unconventional resources and other DERs such as battery storage systems and fuel cells. The study provides a comprehensive overview of approaches employed to curtail the issue of voltage increase at the point of common coupling (PCC), which includes strategies based on the network reinforcement methodology and the active distribution network management. A techno-economic comparison is then introduced in the paper to ascertain the similarities and dissimilarities of different mitigation approaches based on the technology involved, ease of deployment, cost implication, and their pros and cons. The paper provides insights into directions for future research in mitigating the impact of voltage rise presented by grid-connected DGs without limiting their increased penetration in the existing power grid.
Highlights
Political drives to solve the problems of climate change and air pollution as well as the technological advances being made in Distributed Energy Resource (DER) technology have led to the rapid integration of distributed generation (DG) on the distribution networks (DNs) [1, 2]
DG may be described as a kind of power generation that is of relatively small capacity, which is interconnected at the substation, distribution feeder, or customer load levels with the vast majority coming from renewable sources [3, 4]
TO CURTAIL VOLTAGE RISE The approach to mitigate the overvoltage problem caused by the massive penetration of DG in the distribution network is classified into network reinforcement methodology and active distribution network management
Summary
Political drives to solve the problems of climate change and air pollution as well as the technological advances being made in Distributed Energy Resource (DER) technology have led to the rapid integration of distributed generation (DG) on the distribution networks (DNs) [1, 2]. This paper takes a different dimension by considering the issue of voltage rise problem and its impact on distribution networks with high amounts of DG systems It discusses different DG technologies such as those based on conventional and unconventional resources, and other DERs such as battery storage systems and fuel cells. A techno-economic comparison approach is introduced in the paper to ascertain the similarities and dissimilarities of different mitigation approaches based on the technology involved, ease of deployment, cost implication, and their pros and cons This is achieved by presenting an in-depth discussion and analysis of the existing technical methods available in the literature and the emerging strategies for mitigating the issue of voltage rise in the LV distribution network.
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