Techniques used for Unequally Spaced Grounding Grid Design
Journal of Multidisciplinary Research and Reviews • 2018
Publication Information
Authors
Osama Elsayed Gouda, Ghada Mohamed Amer, Omar Mohamed Salim, Eman Amer Elsayed
Keywords
Ground grid, Optimum compression ratio, Particle swarm
optimization, Ground potential rise, Step voltage, Touch voltage.
Journal
Journal of Multidisciplinary Research and Reviews
Publisher
Innovation Info Open Access Journals
Volume
1
Issue
1
Pages
1
publication.type
Local
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
Grounding system is one of the most important items of the power plants and substation systems design. The main purpose of power system substation grounding grids is to maintain reliable operation and provide protection for personnel and equipment during fault conditions. In any substation planning, economical and effective grounding system plays an essential role since absence of effective grounding grid can result in mal-operation of protective devices and hazardous for operators and substation equipment. Therefore, in this paper, the evolutional technique for unequally spaced grounding grid design is suggested. The design is based on hybridization of optimum compression ratio (OCR) and particle swarm optimization (PSO) techniques. This approach is purposed to control the grounding copper volume of the grounding system with the aid of controlling of unequally spaced grounding conductor lengths with respect to the safety measures. The proposed technique offers almost 20% of copper savings comparing with the optimum compression ratio
method.
method.
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