Title |
Optimal Governor Response Power Flow with Nonlinear Interior Point Method |
Authors |
김태균(Kim, Tae-Gyun) ; 이병준(Lee, Byong-Joon) ; 송화창(Song, Hwa-Chang) ; 차준민(Cha, Jun-Min) |
Keywords |
Optimal Governor Response Power Flow ; Nonlinear Interior Point Method ; GPF ; Mid-Term Conditions Optimization |
Abstract |
This paper proposes a new concept of optimal governor-response power flow (OGPF) to obtain an optimal set of control parameters when the systems are in mid-term conditions after disturbances, ignoring the system dynamics. The idea of GOPF simply comes from the attempt to find an optimal solution of the governor-response power flow (GPF), which is a pre-exiting tool that is used to get power flow solutions that would exist several seconds after an event is applied. GPF incorporates the simplified model of governors in the systems into the power flow equations. This paper explains the concept of OGPF and depicts the OGPF formulation and application of a nonlinear interior point method as the solution technique. Also, this paper includes an example with New England 39-bus test system to illustrate the effectiveness of GOPF. |