This work proposes a mixed integer linear programming (MILP) formulation, based on a linear power flow that has recently been proposed in the literature, for the reactive power compensation of distribution networks through the optimal selection of capacitor banks (CB) as well as the optimal tap selection of voltage regulators (VRs) and on load tap changers (OLTCs) in order to maintain the system voltages within bounds. In the proposed formulation the voltage dependent load model is taken into account and the objective is to minimize the supply energy cost on a day-long time period. In order to evaluate the proposed model, several simulations are shown for a 34-bus radial distribution system. The results are duly discussed
Power system stability issues have always been of utmost importance and interests. Since the restruc...
Abstract:- Pattern of load sharing / generation scheduling that results in heavy flows tend to incur...
One of the most important Distribution System Operators (DSO) schemes addresses the Volt/Var control...
Power distribution systems face continuous challenges from increased demand and lengthening of feede...
This chapter deals with two typical optimization problems relevant to the operation of power distrib...
none1noOne of the functions that characterize modern management systems of electric power distributi...
This paper presents a mixed-integer linear programming model to solve the problem of allocating volt...
In this paper, a framework for distribution system optimization is proposed. In this framework, diff...
This work presents a linear control scheme that aims to improve the feasibility of linearized optima...
This paper presents three methodologies for determining optimum locations and magnitudes of reactive...
Nowadays, the diffusion of renewable energy sources and electric vehicles are turning the traditiona...
The paper deals with the solution of the minimum-losses configuration problem of distribution networ...
This paper presents three methodologies for determining optimum locations and magnitudes of reactive...
A new mixed-integer linear programming (MILP) model is proposed to represent the plug-in electric ve...
This paper presents a mixed-integer linear programming model for volt-var optimization considering t...
Power system stability issues have always been of utmost importance and interests. Since the restruc...
Abstract:- Pattern of load sharing / generation scheduling that results in heavy flows tend to incur...
One of the most important Distribution System Operators (DSO) schemes addresses the Volt/Var control...
Power distribution systems face continuous challenges from increased demand and lengthening of feede...
This chapter deals with two typical optimization problems relevant to the operation of power distrib...
none1noOne of the functions that characterize modern management systems of electric power distributi...
This paper presents a mixed-integer linear programming model to solve the problem of allocating volt...
In this paper, a framework for distribution system optimization is proposed. In this framework, diff...
This work presents a linear control scheme that aims to improve the feasibility of linearized optima...
This paper presents three methodologies for determining optimum locations and magnitudes of reactive...
Nowadays, the diffusion of renewable energy sources and electric vehicles are turning the traditiona...
The paper deals with the solution of the minimum-losses configuration problem of distribution networ...
This paper presents three methodologies for determining optimum locations and magnitudes of reactive...
A new mixed-integer linear programming (MILP) model is proposed to represent the plug-in electric ve...
This paper presents a mixed-integer linear programming model for volt-var optimization considering t...
Power system stability issues have always been of utmost importance and interests. Since the restruc...
Abstract:- Pattern of load sharing / generation scheduling that results in heavy flows tend to incur...
One of the most important Distribution System Operators (DSO) schemes addresses the Volt/Var control...