Optimization of Electric Transmission Line Routing for a Renewable Energy Based Micro-Grid System using Geographic Information System (GIS) Spatial Analysis

2020 9th International Conference on Renewable Energy Research and Application (ICRERA) Pub Date : 2020-09-27 DOI:10.1109/ICRERA49962.2020.9242762

Rovick Tarife, Y. Nakanishi, John Vincent S. Bondaug, Regielon V. Irosido, A. Tahud, N. Estoperez

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Abstract

In this study, GIS spatial analyst tools are used to implement an alternative method of electric transmission line (ETL) routing for a renewable energy-based microgrid system. Multiple criteria, starting points and endpoints were identified and a weighted ranking system and suitability index for geographic factors were utilized to create the cost surface. A modified method from the Electric Power Research Institute-Georgia Transmission Corporation (EPRI-GTC) is also adopted for the overhead electric transmission line siting and necessary changes were applied based on the available data and authors’ review on the study area. After applying the Least Cost Path (LCP) algorithm, the results produced three alternative routes based on three perspectives: the built environment, natural environment, and engineering environment. The alternative routes are then overlaid based on a simple combined perspective to create the final route. Moreover, the alternative routes are evaluated to provide a secondary route and the routes developed by engineering perspective were nominated.

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基于地理信息系统(GIS)空间分析的可再生能源微电网输电线路优化

在本研究中，利用GIS空间分析工具为基于可再生能源的微电网系统实现了输电线路(ETL)路由的替代方法。确定了多个标准、起点和终点，并利用加权排名系统和地理因素的适宜性指数来创建成本面。采用美国电力研究所-乔治亚输电公司(EPRI-GTC)的修正方法对架空输电线路进行选址，并根据现有资料和作者对研究区域的回顾进行了必要的修改。应用最小成本路径(LCP)算法，从建筑环境、自然环境和工程环境三个角度得出了三条备选路径。然后，根据一个简单的组合透视图，叠加可选路由，以创建最终路由。此外，对备选路线进行了评价，提供了一条辅助路线，并从工程角度提出了备选路线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 9th International Conference on Renewable Energy Research and Application (ICRERA)

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