An economic and low-carbon day-ahead Pareto-optimal scheduling for wind farm integrated power systems with demand response

Author:

MA Rui,LI Kai,LI Xuan,QIN Zeyu

Publisher

Springer Science and Business Media LLC

Subject

Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment

Reference27 articles.

1. Kang CQ, Chen QX, Xia Q (2009) Prospects of low-carbon electricity. Power Syst Technol 32(2):1–7

2. Chen QX, Kang CQ, Ge J et al (2009) Analysis on reduction model of CO2 emission in power sector based on emission trajectory model. Power Syst Technol 33(19):44–49

3. Li CB, Liu Y, Cao YJ et al (2011) Consistency evaluation of low-carbon generation dispatching and energy-saving generation dispatching. Proc CSEE 31(31):94–101

4. Chen QX, Zhou TR, Kang CQ et al (2009) An assessment model of low- carbon effect and its application to energy saving based generation dispatching. Automat Electr Power Syst 33(16):24–29

5. Ma R (2002) A novel bi-objective fuzzy optimal model of short-term trade planning considering environmental protection and economic profit in deregulated power system. Proc CSEE 22(4):104–106

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