Formulations and Approximations of Branch Flow Model for General Power Networks  被引量:1

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作  者:Zhao Yuan 

机构地区:[1]Electrical Power Systems Laboratory(EPS-Lab),Department of Electrical and Computer Engineering,University of Iceland,Reykjavik,Iceland [2]IEEE

出  处:《Journal of Modern Power Systems and Clean Energy》2022年第5期1110-1126,共17页现代电力系统与清洁能源学报(英文)

摘  要:The formulations and approximations of the branch flow model for general(radial and mesh) power networks(General-BranchFlow) are given in this paper. Using different sets of the power flow equations, six formats of the exact General-BranchFlow model are listed. The six formats are mathematically equivalent with each other. Linear approximation and second-order cone programming(SOCP) are then used to derive the six formats of the convex General-BranchFlow model. The branch ampacity constraints considering the shunt conductance and capacitance of the transmission line Π-model are derived. The key foundation of deriving the ampacity constraints is the correct interpretation of the physical meaning of the transmission line Π-model. An exact linear expression of the ampacity constraints of the power loss variable is derived. The applications of the General-BranchFlow model in deriving twelve formats of the exact optimal power flow(OPF) model and twelve formats of the approximate OPF model are formulated and analyzed. Using the Julia programming language, the extensive numerical investigations of all formats of the OPF models show the accuracy and computational efficiency of the General-BranchFlow model. A penalty function based approximation gap reduction method is finally proposed and numerically validated to improve the AC-feasibility of the approximate General-BranchFlow model.

关 键 词:Branch flow linear approximation second-order cone programming ampacity constraint optimal power flow radial network mesh network 

分 类 号:TM727[电气工程—电力系统及自动化]

 

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