02-09-2017, 04:10 PM
In this thesis, an optimum energy flow based on Newton (OPF) is developed for its implementation in a power system simulation environment. The OPF performs all system control while maintaining system security. System controls include generator megawatt outputs, transformer outlets, and transformer phase shifts, while maintaining system safety ensures that the limits of no component of the power system are violated. Particular attention is paid to the important heuristics for the creation of an OPF that achieves a quick solution. Finally, the applications of the OPF are analyzed. These include the elimination of transmission line overload, transmission system control, available transfer capacity (ATC) calculation, real and reactive power price, the valuation of the transmission component and the price of the transmission system.
An optimum Newton-based energy flow (OPF) is developed for implementation in an energy system simulation environment. The OPF performs all system control while maintaining system security. System controls include generator megawatt outputs, transformer outlets, and transformer phase shifts, while maintaining system safety ensures that the limits of no component of the power system are violated. Particular attention is paid to the important heuristics for the creation of an OPF that achieves a quick solution. Finally, the applications of the OPF are analyzed. These include the elimination of transmission line overload, transmission system control, available transfer capacity (ATC) calculation, real and reactive power price, the valuation of the transmission component and the price of the transmission system.
An optimum Newton-based energy flow (OPF) is developed for implementation in an energy system simulation environment. The OPF performs all system control while maintaining system security. System controls include generator megawatt outputs, transformer outlets, and transformer phase shifts, while maintaining system safety ensures that the limits of no component of the power system are violated. Particular attention is paid to the important heuristics for the creation of an OPF that achieves a quick solution. Finally, the applications of the OPF are analyzed. These include the elimination of transmission line overload, transmission system control, available transfer capacity (ATC) calculation, real and reactive power price, the valuation of the transmission component and the price of the transmission system.