Comparative analyses of Min-Max and Max-Max price penalty factor approaches for multi criteria power system dispatch problem with valve point effect loading using Lagrange's method

2011 International Conference on Power and Energy Systems Pub Date : 2011-12-01 DOI:10.1109/ICPES.2011.6156650

S. Krishnamurthy, R. Tzoneva

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引用次数: 27

Abstract

The objective of the economic dispatch problem of electrical power generation is to schedule the committed generating unit's output so as to meet the required load demand while satisfying the system equality and inequality constraints. This paper solves the combined economic emission dispatch problem by Min-Max and Max-Max price penalty factor approaches using Lagrange's method. The price penalty factor for the combined economic emission dispatch (CEED) is the ratio of fuel cost to emission value. The literature papers reported that most of them use Max-Max Price penalty factor for the CEED problem. This paper analyses Min-Max and Max-Max price penalty factors for CEED problem. This problem is solved for a five generator system by considering the valve point effect for both fuel cost and emission function. The total fuel cost by considering valve point effect of the combined economic emission dispatch problem is less when using Min-Max price penalty factor approach in comparison to Max-Max price penalty factor.

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用拉格朗日方法比较分析带阀点效应负荷的多准则电力系统调度问题的最小-最大和最大-最大价格惩罚因子方法

发电经济调度问题的目标是在满足系统相等和不相等约束的情况下，对承诺发电机组的出力进行调度，以满足所需的负荷需求。本文采用拉格朗日方法，采用最小-最大和最大-最大价格惩罚因子两种方法求解组合经济排放调度问题。联合经济排放调度(CEED)的价格惩罚因子是燃料成本与排放价值的比值。文献报道大多采用Max-Max价格惩罚因子求解CEED问题。本文分析了CEED问题的最小-最大和最大-最大价格惩罚因素。同时考虑了燃油成本和排放函数的阀点效应，求解了五发电机系统的这一问题。与最大-最大价格惩罚因子法相比，最小-最大价格惩罚因子法考虑组合经济排放调度问题的阀点效应的总燃油成本更小。

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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2011 International Conference on Power and Energy Systems

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