Two-stage Nash equilibrium optimization models for motivating energy-saving and emission-reducing trading of generation

Power exchange needs to design a mechanism, which can achieve the internalization of environmental costs of power generation enterprises, thus maximizing the social environmental benefits. Two-stage optimization models of energy-saving and emission-reducing for coal-fired power plant are established...

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Veröffentlicht in:	Dianli Xitong Baohu yu Kongzhi 2011-04, Vol.39 (7), p.63-73
Hauptverfasser:	Yu, Chao, Tan, Zhong-Fu, Hu, Qing-Hui, Wang, Shu-Xiang
Format:	Artikel
Sprache:	chi
Schlagworte:	Control systems Design engineering Electric power plants Emissions control Mathematical analysis Mathematical models Optimization Power generation
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creator	Yu, Chao Tan, Zhong-Fu Hu, Qing-Hui Wang, Shu-Xiang
description	Power exchange needs to design a mechanism, which can achieve the internalization of environmental costs of power generation enterprises, thus maximizing the social environmental benefits. Two-stage optimization models of energy-saving and emission-reducing for coal-fired power plant are established. In the first stage model, maximums of the social environmental benefits and energy-saving effect are taken as the objective functions with consideration of the unit output constraints, load constraints and emissions constraints, etc. In the second stage model, maximums of power generation enterprises' profits are taken as the objective functions with the constraints of KKT conditions of the first stage model. The proposed marginal incentive pricing mechanism not only controls SO(2) emissions from the total amount, but also improves emissions treatment initiative of coal-fired power generation enterprises. A numerical example shows that the proposed model and algorithm can achieve the effect of saving energy, redu
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source	Directory of Open Access Journals
subjects	Control systems Design engineering Electric power plants Emissions control Mathematical analysis Mathematical models Optimization Power generation
title	Two-stage Nash equilibrium optimization models for motivating energy-saving and emission-reducing trading of generation
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