Title :
Transmission Expansion Planning in Electricity Markets
Author :
de la Torre, Sebastian ; Conejo, Antonio J. ; Contreras, Javier
Author_Institution :
Malaga Univ., Malaga
Abstract :
This paper presents a mixed-integer linear programming (LP) formulation for the long-term transmission expansion planning problem in a competitive pool-based electricity market. To achieve optimal expansion planning while modeling market functioning, we define a number of scenarios based on the future demand in the system and we simulate the maximization of the aggregate social welfare. Investment and operating costs, transmission losses and generator offers, and demand bids are considered. We propose to use a set of metrics to rate the effect of the expansion on the generators, demands, and the system as a whole. The proposed model is applied to the Garver six-bus system and to the IEEE 24-bus reliability test system. Simulation results can be interpreted in economic terms based on the values of the metrics obtained for different scenarios, parameters, and topologies.
Keywords :
costing; integer programming; linear programming; load forecasting; power markets; power transmission economics; power transmission planning; Garver six-bus system; IEEE 24-bus reliability test system; aggregate social welfare; competitive pool electricity markets; future power demand; investment costs; long-term transmission expansion planning problem; mixed-integer linear programming; operating costs; optimal expansion planning; power transmission economics; transmission losses; Aggregates; Costs; Electricity supply industry; Investments; Linear programming; Power generation; Power transmission lines; Propagation losses; Upper bound; Voltage; Electricity market; mixed-integer linear programming; social welfare; transmission expansion planning;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2007.913717
