Abstract
A fast successive linear programming (SLP) method for minimizing transmission losses and improving the voltage profile is proposed. The method uses the same compactly stored, factorized constant matrices in all the LP steps, both for power flow solution and for constructing the LP model. The inherent oscillatory convergence of SLP methods is overcome by proper selection of initial step sizes and their gradual reduction. Detailed studies on three systems, including a 109-bus system, reveal the fast and reliable convergence property of the method. (author).
Citation Formats
Sadasivam, G, and Khan, M A.
A fast method for optimal reactive power flow solution.
United Kingdom: N. p.,
1990.
Web.
doi:10.1016/0142-0615(90)90023-5.
Sadasivam, G, & Khan, M A.
A fast method for optimal reactive power flow solution.
United Kingdom.
https://doi.org/10.1016/0142-0615(90)90023-5
Sadasivam, G, and Khan, M A.
1990.
"A fast method for optimal reactive power flow solution."
United Kingdom.
https://doi.org/10.1016/0142-0615(90)90023-5.
@misc{etde_6892069,
title = {A fast method for optimal reactive power flow solution}
author = {Sadasivam, G, and Khan, M A}
abstractNote = {A fast successive linear programming (SLP) method for minimizing transmission losses and improving the voltage profile is proposed. The method uses the same compactly stored, factorized constant matrices in all the LP steps, both for power flow solution and for constructing the LP model. The inherent oscillatory convergence of SLP methods is overcome by proper selection of initial step sizes and their gradual reduction. Detailed studies on three systems, including a 109-bus system, reveal the fast and reliable convergence property of the method. (author).}
doi = {10.1016/0142-0615(90)90023-5}
journal = []
volume = {12:1}
journal type = {AC}
place = {United Kingdom}
year = {1990}
month = {Jan}
}
title = {A fast method for optimal reactive power flow solution}
author = {Sadasivam, G, and Khan, M A}
abstractNote = {A fast successive linear programming (SLP) method for minimizing transmission losses and improving the voltage profile is proposed. The method uses the same compactly stored, factorized constant matrices in all the LP steps, both for power flow solution and for constructing the LP model. The inherent oscillatory convergence of SLP methods is overcome by proper selection of initial step sizes and their gradual reduction. Detailed studies on three systems, including a 109-bus system, reveal the fast and reliable convergence property of the method. (author).}
doi = {10.1016/0142-0615(90)90023-5}
journal = []
volume = {12:1}
journal type = {AC}
place = {United Kingdom}
year = {1990}
month = {Jan}
}