Optimal scheduling of voltage regulators (VRs), fixed and switched capacitors and voltage on customer side of transformer (VCT) along with the optimal allocaton of VRs and capacitors are performed using a hybrid optimisation method based on discrete particle swarm optimisation and genetic algorithm. Direct optimisation of the tap position is not appropriate since in general the high voltage (HV) side voltage is not known. Therefore, the tap setting can be determined give the optimal VCT once the HV side voltage is known. The objective function is composed of the distribution line loss cost, the peak power loss cost and capacitors' and VRs' capital, operation and maintenance costs. The constraints are limits on bus voltage and feeder current...
This paper presents a method to find the optimal size and place of the switched capacitors using a h...
This study presents a method for optimally selecting the location and size of switched shunt capacit...
PrintIn this paper, both Distributed Generators (DG) and capacitors are allocated and sized optimall...
In this paper, a methodology is presented to maximize the effectiveness of pre-installed Voltage Reg...
In this paper, a comprehensive planning methodology is proposed that can minimize the line loss, max...
In this paper, a comprehensive planning methodology is proposed that can minimize the line loss, max...
Determination of the placement and rating of transformers and feeders are the main objective of the ...
This paper investigates daily volt/var control in distribution networks using feeder capacitors as w...
In this paper, an approach for placement of voltage regulators (VRs) in traditional distribution sys...
Voltage Regulator has always been considered as an integral part of the distribution system response...
This paper addresses the issues of VVO (Volt/VAr Optimization) such as loss minimization, acceptable...
AbstractIn this paper, a modified discrete particle swarm optimization is presented to find the opti...
In this paper, a modified discrete particle swarm optimization is presented to find the optimal plac...
A two-step algorithm for the optimal placement of voltage regulators in distribution systems is pres...
This paper presents a method to find the optimal size and place of the switched capacitors using a h...
This study presents a method for optimally selecting the location and size of switched shunt capacit...
PrintIn this paper, both Distributed Generators (DG) and capacitors are allocated and sized optimall...
In this paper, a methodology is presented to maximize the effectiveness of pre-installed Voltage Reg...
In this paper, a comprehensive planning methodology is proposed that can minimize the line loss, max...
In this paper, a comprehensive planning methodology is proposed that can minimize the line loss, max...
Determination of the placement and rating of transformers and feeders are the main objective of the ...
This paper investigates daily volt/var control in distribution networks using feeder capacitors as w...
In this paper, an approach for placement of voltage regulators (VRs) in traditional distribution sys...
Voltage Regulator has always been considered as an integral part of the distribution system response...
This paper addresses the issues of VVO (Volt/VAr Optimization) such as loss minimization, acceptable...
AbstractIn this paper, a modified discrete particle swarm optimization is presented to find the opti...
In this paper, a modified discrete particle swarm optimization is presented to find the optimal plac...
A two-step algorithm for the optimal placement of voltage regulators in distribution systems is pres...
This paper presents a method to find the optimal size and place of the switched capacitors using a h...
This study presents a method for optimally selecting the location and size of switched shunt capacit...
PrintIn this paper, both Distributed Generators (DG) and capacitors are allocated and sized optimall...