AbstractThis paper proposes a fast and robust load flow method for balanced power distribution systems with distributed generation sources. The method formulates the power flow equations in PQ decoupled form with polar coordinates. Second-order terms are included in the active power mismatch iteration, and resistances are fully modeled without any simplifications. The impacts of zero-impedance branches are explicitly modeled through reconfiguring of the adjacent branches with impedances. Typical distribution generation models and distribution load models are included. A hybrid direct and indirect solution technique is used to achieve efficiency and robustness of the algorithm. Active power correction is solved by means of a sparse LU decomp...
The modern Distribution Systems (DS) require for accurate and fast Power Flow (PF) algorithms as a b...
Power flow is one of the essential studies in power system operation and planning. All steady-state ...
An efficient load flow solution technique is required as a part of the distribution automation (DA) ...
AbstractThis paper proposes a fast and robust load flow method for balanced power distribution syste...
AbstractThe significant penetration of Distributed Generation(DG) systems in electrical power indust...
Abstract A new, efficient power flow algorithm for complex distribution systems is presented. Voltag...
Real-time operation, analysis and control of active distribution systems (DSs) mainly rely on accura...
This study presents a generalised single-equation load flow (GSELF) method for the analysis of unbal...
With the increasing interest in distribution automation, distribution power flow is important for ap...
Original scientific paper During the planning and designing stage of power distribution networks dev...
The objective of this paper is to propose a computationally efficient load flow technique for an unb...
This dissertation presents a comparative study of load flow methods for analysis of active distribut...
Two mismatch functions (power or current) and three coordinates (polar, Cartesian and complex form) ...
Distribution networks are typically unbalanced due to loads being unevenly distributed over the thre...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The modern Distribution Systems (DS) require for accurate and fast Power Flow (PF) algorithms as a b...
Power flow is one of the essential studies in power system operation and planning. All steady-state ...
An efficient load flow solution technique is required as a part of the distribution automation (DA) ...
AbstractThis paper proposes a fast and robust load flow method for balanced power distribution syste...
AbstractThe significant penetration of Distributed Generation(DG) systems in electrical power indust...
Abstract A new, efficient power flow algorithm for complex distribution systems is presented. Voltag...
Real-time operation, analysis and control of active distribution systems (DSs) mainly rely on accura...
This study presents a generalised single-equation load flow (GSELF) method for the analysis of unbal...
With the increasing interest in distribution automation, distribution power flow is important for ap...
Original scientific paper During the planning and designing stage of power distribution networks dev...
The objective of this paper is to propose a computationally efficient load flow technique for an unb...
This dissertation presents a comparative study of load flow methods for analysis of active distribut...
Two mismatch functions (power or current) and three coordinates (polar, Cartesian and complex form) ...
Distribution networks are typically unbalanced due to loads being unevenly distributed over the thre...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The modern Distribution Systems (DS) require for accurate and fast Power Flow (PF) algorithms as a b...
Power flow is one of the essential studies in power system operation and planning. All steady-state ...
An efficient load flow solution technique is required as a part of the distribution automation (DA) ...