This paper proposes a piecewise parallel solution to the Newton-Raphson power flow problem using the concept of current mismatches, instead of power mismatches. The given large network is divided into a number of smaller sub-networks. Computations are performed upon the individual sub-networks. Then the sub-network solutions are consolidated to obtain the solution of the original network using the Large Change Sensitivity concept. No restrictions are imposed on the number and size of the sub-networks in this method. Also, complications such as temporary slack bus assignment for each sub-network and bus reordering do not arise. The number of iterations required for convergence remains exactly the same as that for the original undivided netwo...
Power flow study plays a fundamental role in the process of power system operation and planning. Of ...
A nonlinear interior-point optimal power flow (OPF) method based on a current mismatch formulation i...
Power flow analysis is a very important and fundamental tool for power system. Commercial power syst...
This paper proposes a piecewise parallel solution to the Newton-Raphson power flow problem using the...
A general framework is given for applying the Newton–Raphson method to solve power flow problems, us...
The power flow problem, in transmission networks, has been well solved, for most cases, using Newton...
Two mismatch functions (power or current) and three coordinates (polar, Cartesian and complex form) ...
Abstract:- This paper proposes an alternative approach for Newton-Raphson power flow calculation, wh...
The purpose of this thesis is to expand the rigor of the development of new power flow solvers throu...
This work studies the performance of single-phase power flow computations implemented using vector-b...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
Coupling single-carrier networks into multi-carrier energy systems (MESs) has recently become more i...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
The power flow problem is generally solved by the Newton-Raphson method with a sparse direct solver ...
In this paper, a new algorithm computing the multi-area power flow problem is presented. This algori...
Power flow study plays a fundamental role in the process of power system operation and planning. Of ...
A nonlinear interior-point optimal power flow (OPF) method based on a current mismatch formulation i...
Power flow analysis is a very important and fundamental tool for power system. Commercial power syst...
This paper proposes a piecewise parallel solution to the Newton-Raphson power flow problem using the...
A general framework is given for applying the Newton–Raphson method to solve power flow problems, us...
The power flow problem, in transmission networks, has been well solved, for most cases, using Newton...
Two mismatch functions (power or current) and three coordinates (polar, Cartesian and complex form) ...
Abstract:- This paper proposes an alternative approach for Newton-Raphson power flow calculation, wh...
The purpose of this thesis is to expand the rigor of the development of new power flow solvers throu...
This work studies the performance of single-phase power flow computations implemented using vector-b...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
Coupling single-carrier networks into multi-carrier energy systems (MESs) has recently become more i...
This thesis explores the possibility of applying the existing Multi-Area Thévenin Equivalent (MATE) ...
The power flow problem is generally solved by the Newton-Raphson method with a sparse direct solver ...
In this paper, a new algorithm computing the multi-area power flow problem is presented. This algori...
Power flow study plays a fundamental role in the process of power system operation and planning. Of ...
A nonlinear interior-point optimal power flow (OPF) method based on a current mismatch formulation i...
Power flow analysis is a very important and fundamental tool for power system. Commercial power syst...