This paper presents three methodologies for determining optimum locations and magnitudes of reactive power compensation in power distribution systems. Method I and Method II are suitable for complex distribution systems with a combination of both radial and ring-main feeders and having different voltage levels. Method III is suitable for low-tension single voltage level radial feeders. Method I is based on an iterative scheme with successive powerflow analyses, with formulation and solution of the optimization problem using linear programming. Method II and Method III are essentially based on the steady state performance of distribution systems. These methods are simple to implement and yield satisfactory results comparable with the results...
With the increased loading of existing power system, the problem of voltage stability and voltage co...
This paper presents an optimization model for a combined scheme of optimal tap setting and reactive ...
Abstract— Due to large resistance and lower reactance of lines, the voltage control and power loss b...
This paper presents three methodologies for determining optimum locations and magnitudes of reactive...
In this paper an exhaustive bibliographical revision of the mathematical methods used for the optima...
Today, the increase in reactive power consumption far exceeds the increase in active power consumpti...
Abstract—The real power losses in distribution systems are generally quite appreciable, constituting...
The use of automation and energy efficient equipment with electronic control would greatly improve i...
In this paper, the authors introduce two new heuristic techniques for reactive power compensation in...
The use of automation and energy efficient equipment with electronic control would greatly improve i...
As a part of prosumer concept, reactive power supply using the end user equipment is evolving. React...
The dependence of the system voltage stability on reactive power distribution forms the basis for re...
This work proposes a mixed integer linear programming (MILP) formulation, based on a linear power fl...
Abstract-This paper presents a new approach based on the total reactive loss in a distribution syste...
This research focuses on finding the optimal location of reactive compensation in an unbalanced elec...
With the increased loading of existing power system, the problem of voltage stability and voltage co...
This paper presents an optimization model for a combined scheme of optimal tap setting and reactive ...
Abstract— Due to large resistance and lower reactance of lines, the voltage control and power loss b...
This paper presents three methodologies for determining optimum locations and magnitudes of reactive...
In this paper an exhaustive bibliographical revision of the mathematical methods used for the optima...
Today, the increase in reactive power consumption far exceeds the increase in active power consumpti...
Abstract—The real power losses in distribution systems are generally quite appreciable, constituting...
The use of automation and energy efficient equipment with electronic control would greatly improve i...
In this paper, the authors introduce two new heuristic techniques for reactive power compensation in...
The use of automation and energy efficient equipment with electronic control would greatly improve i...
As a part of prosumer concept, reactive power supply using the end user equipment is evolving. React...
The dependence of the system voltage stability on reactive power distribution forms the basis for re...
This work proposes a mixed integer linear programming (MILP) formulation, based on a linear power fl...
Abstract-This paper presents a new approach based on the total reactive loss in a distribution syste...
This research focuses on finding the optimal location of reactive compensation in an unbalanced elec...
With the increased loading of existing power system, the problem of voltage stability and voltage co...
This paper presents an optimization model for a combined scheme of optimal tap setting and reactive ...
Abstract— Due to large resistance and lower reactance of lines, the voltage control and power loss b...