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Emission dispatch solution using biogeography-based optimization with availability of wind power

机译：使用基于生物地理的优化并具有风能的排放调度解决方案

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In this paper a emission dispatch problem is solved to minimize the emission of oxides of nitrogen (NOx), considering both thermal generators and wind power source. Total overall cost of generation is taken as inequality constraint during the time of minimization of emission during optimization process. The effects of wind power to control overall NOx emission from thermal power plants are also investigated here. To find the optimum emission dispatch schedule, authors have applied Biogeography based optimization. Biogeography deals with the geographical distribution of biological species. Mathematical models of biogeography describe how a species arises, migrates from one habitat to another and gets wiped out. The results obtained using BBO show the efficiency of BBO algorithm to solve complex emission dispatch problems.

机译：在本文中，解决了排放调度问题，同时考虑了热力发电机和风力发电源，以最大程度地减少氮氧化物（NOx）的排放。在优化过程中，将排放最小化时的总总发电成本视为不平等约束。在此还研究了风力对控制火电厂总NOx排放的影响。为了找到最佳的排放调度时间表，作者应用了基于生物地理学的优化方法。生物地理学涉及生物物种的地理分布。生物地理学的数学模型描述了物种如何产生，如何从一个栖息地迁移到另一个栖息地并被消灭。使用BBO获得的结果表明BBO算法解决复杂的排放调度问题的效率。

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来源
《2012 Annual IEEE India Conference.》|2012年|p.471-475|共5页
会议地点 Kochi(IN);Kochi(IN)
作者
Mondal Soumitra; Bhattacharya Aniruddha; Dey Sunita Halder nee;
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作者单位

Electrical Engineering Department, Dr. B.C. Roy Engineering College, Durgapur, India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;计算技术、计算机技术;
关键词
Biogeography based optimization; Migration; Mutation; emission dispatch; fuel cost; wind turbine;

机译：基于生物地理的优化；迁移；变异；排放调度；燃料成本；风力发电机；;

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4. Emission dispatch solution using biogeography-based optimization with availability of wind power [C] . Mondal Soumitra, Bhattacharya Aniruddha, Dey Sunita Halder nee Annual IEEE India Conference . 2012

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6. Adaptive grid based multi-objective Cauchy differential evolution for stochastic dynamic economic emission dispatch with wind power uncertainty [O] . Huifeng Zhang, Xiaohui Lei, Chao Wang, 2011

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Emission dispatch solution using biogeography-based optimization with availability of wind power

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