Title :
Thermodynamic approach to unit commitment problem
Author :
Reji, Bijo ; Thomas, P.C.
Author_Institution :
EEE Dept., Amaljyothi Coll. of Eng., Kanjirappally, India
Abstract :
Power system operation planning involves the best utilization of all available energy sources subjected to various constraints. It includes transfer of electric energy from generating companies to the consumers with maximum safety, continuity, quality and minimum operating cost. The minimum operating cost is obtained by scheduling available cheaper units. Unit commitment involves hour to hour ordering of the units in the system to match the anticipated load and allow losses with sufficient safety margin. Simulated annealing is a derivative free thermodynamic optimization method. It provides unit scheduling with minimum running cost, where temperature is the control parameter. With time and power demand as the comparative factors, scheduling of units in a cost effective manner was done on a small power system with three generating units. The case study reveals that the total cost of production reduced to a considerable amount.
Keywords :
electricity supply industry; power generation economics; power generation planning; simulated annealing; electric energy generating company; electric energy transfer; power demand; power system operating cost; power system operation planning; thermodynamic optimization method; unit commitment problem; Fuels; Generators; Power generation; Power systems; Simulated annealing; Thermodynamics; Unit commitment problem; control parameter; operating cost; probability; simulated annealing; thermodynamic approach;
Conference_Titel :
Emerging Research Areas and 2013 International Conference on Microelectronics, Communications and Renewable Energy (AICERA/ICMiCR), 2013 Annual International Conference on
Conference_Location :
Kanjirapally
Print_ISBN :
978-1-4673-5150-8
DOI :
10.1109/AICERA-ICMiCR.2013.6575950
