Title :
Surrogate worth trade-off method for economic-emission dispatch
Author :
Singh, Lakhwinder ; Dhillon, Jaspreet Singh
Author_Institution :
Baba Banda Singh Bahadur Eng. Coll., Fatehgarh
Abstract :
The economic-emission dispatch (EED) problem is a multiple non-commensurable objective problem that minimizes both cost and emission together subject to power balance and generators capacity constraints. In this paper, multiobjective economic-emission dispatch problem is converted into a scalar optimization problem. Scalar optimization problem is solved many times for a different set of weight pattern to generate non-inferior solutions along with trade-off functions between the conflicting objectives. Fuzzy decision making theory is exploited to decide the best compromise solution. The optimal solution is obtained by considering real and reactive power losses, which are calculated by performing fast decoupled load flow analysis. The validity of the proposed method is demonstrated on 25-bus, 35-lines IEEE system, comprising of five generators
Keywords :
air pollution control; costing; decision making; fuzzy systems; load dispatching; load flow; losses; power system economics; reactive power; IEEE system; Surrogate worth trade-off method; cost minimization; emission minimization; fuzzy decision making theory; load flow analysis; multiobjective economic-emission dispatch problem; power balance; reactive power losses; real power losses; scalar optimization problem; Air pollution; Cost function; Decision making; Environmental economics; Fuel economy; Fuzzy set theory; Optimization methods; Power generation; Power generation economics; Thermal pollution; Economic-emission dispatch; fuzzy decision making; regression analysis; weighting method;
Conference_Titel :
Power Systems Conference: Advanced Metering, Protection, Control, Communication, and Distributed Resources, 2006. PS '06
Conference_Location :
Clemson, SC
Print_ISBN :
0-615-13280-4
DOI :
10.1109/PSAMP.2006.285393
