This paper illustrates the construction of a new class of iterative solvers for power flow calculations based on the method of Alternating Search Directions. This method is fit to the particular algebraic structure of the power flow problem resulting from the combination of a globally linear set of equations and nonlinear local relations imposed by power conversion devices, such as loads and generators. The choice of the search directions is shown to be crucial for improving the overall robustness of the solver. A noteworthy advantage is that constant search directions yield stationary methods that, in contrast with Newton or Quasi-Newton methods, do not require the evaluation of the Jacobian matrix. Such directions can be elected to enforc...
This paper explores an idea to extend Newton–Raphson power flow problem to handle power system trans...
To meet the future needs of the electric power system, improvements need to be made in the areas of ...
The manuscript addresses the problem of finding all solutions of power flow equations or other simil...
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
The power flow model performs the analysis of electric distribution and transmission systems. With t...
The power flow equations are at the core of most of the computations for designing and operating ele...
Power flow, or load flow, is widely used in power system operation and planning. The power flow mode...
The load flow equations express the balance of power in an electrical power system. The power genera...
This paper proposes a robust, non-divergent model for large-scale AC-DC power flow analysis. By intr...
Power flow analysis is a very important and fundamental tool for power system. Commercial power syst...
Versió amb diverses seccions retallades, per drets de l'editorThe Power Flow model is extensively us...
This paper presents an algorithm that solves the AC power flow problem for balanced, three-phase tra...
A general framework is given for applying the Newton–Raphson method to solve power flow problems, us...
peer reviewedAC power flow problems are usually solved by the Newton-Raphson solution method. The ma...
This paper shows a new modeling for voltage controlled generation buses, avoiding bus type switching...
This paper explores an idea to extend Newton–Raphson power flow problem to handle power system trans...
To meet the future needs of the electric power system, improvements need to be made in the areas of ...
The manuscript addresses the problem of finding all solutions of power flow equations or other simil...
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
The power flow model performs the analysis of electric distribution and transmission systems. With t...
The power flow equations are at the core of most of the computations for designing and operating ele...
Power flow, or load flow, is widely used in power system operation and planning. The power flow mode...
The load flow equations express the balance of power in an electrical power system. The power genera...
This paper proposes a robust, non-divergent model for large-scale AC-DC power flow analysis. By intr...
Power flow analysis is a very important and fundamental tool for power system. Commercial power syst...
Versió amb diverses seccions retallades, per drets de l'editorThe Power Flow model is extensively us...
This paper presents an algorithm that solves the AC power flow problem for balanced, three-phase tra...
A general framework is given for applying the Newton–Raphson method to solve power flow problems, us...
peer reviewedAC power flow problems are usually solved by the Newton-Raphson solution method. The ma...
This paper shows a new modeling for voltage controlled generation buses, avoiding bus type switching...
This paper explores an idea to extend Newton–Raphson power flow problem to handle power system trans...
To meet the future needs of the electric power system, improvements need to be made in the areas of ...
The manuscript addresses the problem of finding all solutions of power flow equations or other simil...