Title :
Energy and reserve dispatch in a multi-zone electricity market
Author :
Ma, Xingwang ; Sun, David ; Cheung, Kwok
Author_Institution :
Cegelec ESCA Corp., Bellevue, WA, USA
fDate :
8/1/1999 12:00:00 AM
Abstract :
Competitive bidding for ancillary services (A/S), in addition to bidding for energy, is increasingly recognized as an important part of electricity markets. In this paper, an LP-based approach is presented for solving the multi-product (i.e. energy and A/S products), multi-zone/area physical market dispatch problem. The approach can explicitly represent various constraints, such as reserve requirement constraints, network security limits, and sharing of constrained resource capacity (e.g. maximum unit generation) between energy and reserve. The joint dispatch method, which dispatches energy and reserve market concurrently, is extended to allow inter-zonal reserve trading in a multi-zone competitive pool. Numerical examples are included to demonstrate the salient characteristics of the joint dispatch solution
Keywords :
electricity supply industry; linear programming; load dispatching; load flow; power system economics; power system interconnection; ancillary services competitive bidding; constrained resource capacity; energy dispatch; inter-zonal reserve trading; joint dispatch method; joint dispatch solution; linear programming; multi-product dispatch problem; multi-zone competitive pool; multi-zone electricity market; network security limits; reserve dispatch; reserve requirement constraints; salient characteristics; Electricity supply industry; Electricity supply industry deregulation; Maintenance; Power generation economics; Power system analysis computing; Power system economics; Power system reliability; Power system security; Power systems; Sun;
Journal_Title :
Power Systems, IEEE Transactions on
