Maximizing DG Penetration with an Analytical Approach and Artificial Bee Colony Algorithm

2019 6th International Conference on Electrical and Electronics Engineering (ICEEE) Pub Date : 2019-04-01 DOI:10.1109/ICEEE2019.2019.00017

A. Şeker, T. Gözel, M. H. Hocaoğlu

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Abstract

Renewable source based energy generation become a solution in today's power system to provide unlimited clean energy as well as reducing carbon emission. Distributed generators are significant applicant for a network that will help to supply the ascending energy demand with clean energy. As distribution network operators intend to increase distributed generation penetration they need to investigate and find solution how to operate the system reliable and safely considering the negative effects of them. It has significant importance to be aware of the penetration capacity of system for future planning and investments. In this paper, a beginning of a study is presented to show the effects of distributed generator penetration level in a distribution system. An analytical approach is introduced regarding total power loss of a distributed generator penetrated system and a heuristic method is used to make further analysis. Changes in power loss depending on distributed generators size can be obtained with both methods. The results will give an insight to distribution network operators in their planning and operation as well as future investments.

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用分析方法和人工蜂群算法最大化DG穿透

基于可再生能源的发电成为当今电力系统提供无限清洁能源和减少碳排放的解决方案。分布式发电机组是一个重要的申请人，将有助于提供日益增长的能源需求与清洁能源的网络。随着配电网运营商打算增加分布式发电的普及率，如何在考虑到分布式发电的负面影响的情况下，可靠、安全地运行配电网需要研究和寻找解决方案。了解系统的渗透能力对未来的规划和投资具有重要意义。本文首先研究了分布式发电机的插线水平对配电系统的影响。介绍了分布式发电机侵彻系统总功率损耗的分析方法，并用启发式方法进行了进一步分析。两种方法均可获得随分布式发电机大小而变化的功率损耗。研究结果将为配电网络运营商的规划和运营以及未来的投资提供见解。

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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2019 6th International Conference on Electrical and Electronics Engineering (ICEEE)

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