Title :
VSC-HVDC model-based power system optimal power flow algorithm and analysis
Author :
Sang-Seung Lee ; Yong Tae Yoon ; Seung-Il Moon ; Jong-Keun Park
Author_Institution :
Power Syst. Res. Div., Seoul Nat. Univ., Seoul, South Korea
Abstract :
This paper presents a power system operation optimization algorithm including VSC-HVDC (Voltage Source Converter - High-Voltage Direct Current) lines using PD-IP (primal-dual interior point) Newton-type OPF (optimal power flow). The VSC-HVDC links have the ability to exert instantaneous power control in neighboring AC systems. Moreover, the VSC-HVDC technology is fit for meeting the growing needs of the DER (distributed energy resource) connection, such as with wind power generation in power systems. The output results for the voltage and the angle are shown by the simulation for the insertion of VSC-HVDC line in the IEEE 30-bus power system. Simulations are executed by the MATPOWER (MATLAB power system simulation) tool for the optimal power flow.
Keywords :
HVDC power convertors; HVDC power transmission; Newton method; distributed power generation; load flow; optimisation; power control; power distribution lines; DER connection; IEEE 30-bus power system; MATPOWER; Matlab power system simulation tool; PD-IP Newton-type OPF; VSC-HVDC model-based power system optimal power flow algorithm; distributed energy resource connection; high-voltage direct current lines; instantaneous power control; neighboring AC systems; power system operation optimization algorithm; primal-dual interior point Newton-type OPF; voltage source converter; wind power generation; HVDC transmission; Load flow; Mathematical model; Optimization; Power conversion; BTB; IEEE 30 bus system; MATPOWER; OPF; PD-IP (primal-dual interior point) Newton-type OPF; PTP; VSC-HVDC;
Conference_Titel :
Power and Energy Society General Meeting (PES), 2013 IEEE
Conference_Location :
Vancouver, BC
DOI :
10.1109/PESMG.2013.6672413
