Thermal unit commitment using binary/real coded artificial bee colony algorithm

K.Chandrasekaran; S. Hemamalini; Sishaj P. Simon; Narayana  Prasad Padhy

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Thermal unit commitment using binary/real coded artificial bee colony algorithm

机译：使用二进制/实数编码人工蜂群算法的热电机组承诺

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This paper presents a binary/real coded artificial bee colony (BRABC) algorithm to solve the thermal unit commitment problem (UCP). A novel binary coded ABC with repair strategies is used to obtain a feasible commitment schedule for each generating unit, satisfying spinning reserve and minimum up/down time constraints. Economic dispatch is carried out using real coded ABC for the feasible commitment obtained in each interval. In addition, non-linearities like valve-point effect, prohibited operating zones and multiple fuel options are included in the fuel cost functions. The effectiveness of the proposed algorithm has been tested on a standard ten-unit system, on IEEE 118-bus test system and IEEE RTS 24 bus system. Results obtained show that the proposed binary ABC is efficient in generating feasible schedules.

机译：本文提出了一种二进制/实数编码的人工蜂群算法（BRABC），以解决热机组承诺问题（UCP）。具有修复策略的新型二进制编码ABC用于获得每个发电机组的可行承诺计划，同时满足旋转备用和最小上/下时间限制。使用实际编码的ABC进行经济调度，以获得在每个间隔中获得的可行承诺。此外，燃料成本功能还包括非线性，例如阀点效应，禁止的工作区域和多种燃料选择。该算法的有效性已经在标准的十单元系统，IEEE 118总线测试系统和IEEE RTS 24总线系统上进行了测试。获得的结果表明，所提出的二进制ABC在生成可行时间表方面是有效的。

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来源
《Electric power systems research》 |2012年第1期|p.109-119|共11页
作者
K.Chandrasekaran; S. Hemamalini; Sishaj P. Simon; Narayana Prasad Padhy;
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作者单位

National Institute of Technology, Tiruchirappalli, India;

VIT University. Chennai. India;

National Institute of Technology, Tiruchirappalli, India;

Indian Institute ofTechnolosv. Roorkee. India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
unit commitment; binary artificial bee colony; economic dispatch; valve-point effect; prohibited operating zones; multiple fuels;

机译：单位承诺;二元人工蜂群;经济调度阀点效应禁止的操作区;多种燃料;

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Thermal unit commitment using binary/real coded artificial bee colony algorithm

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