The aim of this paper is to present a new method for the allocation of new generation capacity, which takes into account fault level constraints imposed by protection equipment such as switcvhgear. It simulates new generation capacities and connections to other networks using generators with quadratic cost functions. The coefficients of the cost functions express allocation preferences over connection points. The relation between capacity and subtransient reactance of generators is used during the estimation of fault currents. An iterative process allocates new capacity using Optimal Power Flow mechanisms and readjusts capacity to bring fault currents within the specifications of switchgear. The method was tested on a 12-bus LV meshed netw...
Appropriate design and efficient operation of components of a power system reduce the cost of electr...
Distributed generation has become one of the major electric power system elements. The advantages of...
As the amount of distributed generation (DG) is growing worldwide, the need to increase the hosting ...
This paper presents a novel method for determining the capacity of a network to accommodate new gene...
International audienceIn this study, we tackle the problem of searching for the most favorable patte...
This study applies a decomposed method to determine adequate countermeasures against excessive fault...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
During stressed conditions, transmission line outages in power systems may cause severe overloading ...
This paper presents a new algorithm for network reconfiguration based on maximization of system load...
The optimal power flow (OPF) problem aims to control the generation and consumption of generators an...
The objective of an Optimal Power Flow (OPF) algorithm is to find the steady-state operation point o...
Planning for the intensive use of renewable energy sources (RESs) has attracted wide attention to li...
In this paper, we tackle the problem of searching for the most favorable pattern of link capacity al...
In spite of the benefits of the implementation of the power market, the biggest threats for the secu...
The increasing growth in power demand and the penetration of renewable distributed generations in co...
Appropriate design and efficient operation of components of a power system reduce the cost of electr...
Distributed generation has become one of the major electric power system elements. The advantages of...
As the amount of distributed generation (DG) is growing worldwide, the need to increase the hosting ...
This paper presents a novel method for determining the capacity of a network to accommodate new gene...
International audienceIn this study, we tackle the problem of searching for the most favorable patte...
This study applies a decomposed method to determine adequate countermeasures against excessive fault...
A range of techniques have been proposed to define the optimal locations and capacities of distribut...
During stressed conditions, transmission line outages in power systems may cause severe overloading ...
This paper presents a new algorithm for network reconfiguration based on maximization of system load...
The optimal power flow (OPF) problem aims to control the generation and consumption of generators an...
The objective of an Optimal Power Flow (OPF) algorithm is to find the steady-state operation point o...
Planning for the intensive use of renewable energy sources (RESs) has attracted wide attention to li...
In this paper, we tackle the problem of searching for the most favorable pattern of link capacity al...
In spite of the benefits of the implementation of the power market, the biggest threats for the secu...
The increasing growth in power demand and the penetration of renewable distributed generations in co...
Appropriate design and efficient operation of components of a power system reduce the cost of electr...
Distributed generation has become one of the major electric power system elements. The advantages of...
As the amount of distributed generation (DG) is growing worldwide, the need to increase the hosting ...