Title :
Economic dispatch and optimal sizing of battery energy storage systems in utility load-leveling operations
Author :
Lo, Chin H. ; Anderson, Max D.
Author_Institution :
Dept. of Electr. Eng., Missouri Univ., Rolla, MO, USA
fDate :
9/1/1999 12:00:00 AM
Abstract :
Battery energy storage (BES) systems show promise of savings for both the utility and the customer. An algorithm combining multi-pass dynamic programming (MPDP) with a time-shift technique has been developed for two purposes: economic dispatch of BES; and finding optimal BES power and energy capacities in a power system. Due to the daily cyclic nature of the load curve, a 168-hour load curve is decomposed into seven 24-hour subsections for easy management. Each subsection is treated independently. Decomposition can save computation time and computer memory. A time-shift technique provides better starting state values and improves the finding process of the MPDP approach. The Kansas City Power and Light system is used as an example to test this algorithm. The results obtained in this research have been compared with those from EPRI´s DYNASTORE with reasonable discrepancy
Keywords :
battery storage plants; dynamic programming; electricity supply industry; energy storage; load dispatching; load management; power system analysis computing; power system economics; battery energy storage systems; computation time; computer memory; computer simulation; daily cyclic load curve; economic dispatch; multi-pass dynamic programming; sizing optimisation; time-shift technique; utility load-leveling operations; Batteries; Cities and towns; Dynamic programming; Energy storage; Heuristic algorithms; Power generation economics; Power system dynamics; Power system economics; Power system management; Power systems;
Journal_Title :
Energy Conversion, IEEE Transactions on
