Title :
Optimal sizing and siting of distributed generation
Author :
Hussein, Dalia N. ; El-Sayed, M.A.H. ; Attia, H.A.
Author_Institution :
Electr. Power & Machines Dept., Cairo Univ., Giza, Egypt
Abstract :
Increased numbers of distributed generation (DG) have become connected to the distribution network as a result of the network deregulation and increased customer demands. They represent and alternative option to postpone the transmission and distribution expansion required to satisfy the forcasted peak loads. This paper proposes an optimization model aims to determine optimal DG sizes and sites that minimize the new DG capital cost, DG operating costs, losses compensation costs, and cost of the purchased power by the distribution network. This optimization is performed subject to several technical constraints related to both network and DG operation; it is also performed on hourly bases for different DG types and for different scenarios. The investment required to upgrade the network without DG is compared with DC investments to justify their economical impact.
Keywords :
cost reduction; distribution networks; optimisation; power markets; DG operation; cost reduction; customer demands; distributed generation; distribution network; forecasted peak loads; network deregulation; optimal sizing; optimization model; Cost function; Distributed control; Investments; Joining processes; Load flow; Load forecasting; Power engineering and energy; Power generation; Substations; Voltage; Cm Electricity market price ($/MWh); Cr Hourly DG operating cost ($/MWh); Distributed generation; M Total number of system load buses; N Total number of system buses; PDGi Power generated from DG unit(s) at bus i (MW); Pij Active power flow in feeder connecting bus i to bus j; Pssi Power purchased by the distribution company through substation i (MW); PCAPDGi DG capacity limit at bus i (MW); Rij Resistance of Feeder from bus i to bus j; SDGj Power generated from DG unit j; Sij Apparent power flow in feeder connecting bus i to bus j; SS No. of system substations; V Bus voltage (Volt); Zij Impedance of Feeder from bus i to bus j (Ω); optimization; planning;
Conference_Titel :
Power Systems Conference, 2006. MEPCON 2006. Eleventh International Middle East
Conference_Location :
El-Minia
Print_ISBN :
978-1-4244-5111-1
