The main purpose of this paper is to establish a multi-objective function for optimal load balancing in modern distribution networks. The proposed approach can reduce the three-phase voltage unbalance ratio and system power loss; furthermore, the system operation performance will be improved. The genetic algorithm and three-phase power flow algorithm are coded in Matlab. Finally, the IEEE 37-Bus test system is used as the sample system to verify the accuracy of the proposed approach. The simulation results demonstrate that the proposed approach is systematic and efficient for solving the load balancing problem in active distribution networks
AbstractThis paper describes the implementation of an algorithm which predicts optimum reconfigurati...
The problem of optimal phase-balancing in three-phase asymmetric distribution networks is addressed ...
In this paper, a multi-objective reactive power optimization model of distribution network is establ...
AbstractThis paper investigates feeder reconfiguration in balanced and unbalanced networks and prese...
This paper investigates feeder reconfiguration in balanced and unbalanced networks and presents an e...
M. Tech. Electrical EngineeringReconfiguration of electric distribution networks is treated as an op...
Voltage and current imbalance have adverse impacts on power systems such as power loss increase, com...
This paper presents a new robust optimization technique for distribution network configuration, whic...
The unbalanced conditions are taken into account in the Reactive Power/Voltage control of distributi...
The unbalanced conditions are taken into account in the Reactive Power/Voltage control of distributi...
Electrical energy is an essential ingredient for the industrial and all-round development of any cou...
This paper presents a method for the optimal allocation of Distributed generation in distribution sy...
AbstractThe continued interest in the distributed generation in recent years is leading to a number ...
Power distribution networks typically have tie and sectionalizing switches whose states determine th...
Abstract-Over 50 years Malaysia is using the same power transmission channel from the colonial of th...
AbstractThis paper describes the implementation of an algorithm which predicts optimum reconfigurati...
The problem of optimal phase-balancing in three-phase asymmetric distribution networks is addressed ...
In this paper, a multi-objective reactive power optimization model of distribution network is establ...
AbstractThis paper investigates feeder reconfiguration in balanced and unbalanced networks and prese...
This paper investigates feeder reconfiguration in balanced and unbalanced networks and presents an e...
M. Tech. Electrical EngineeringReconfiguration of electric distribution networks is treated as an op...
Voltage and current imbalance have adverse impacts on power systems such as power loss increase, com...
This paper presents a new robust optimization technique for distribution network configuration, whic...
The unbalanced conditions are taken into account in the Reactive Power/Voltage control of distributi...
The unbalanced conditions are taken into account in the Reactive Power/Voltage control of distributi...
Electrical energy is an essential ingredient for the industrial and all-round development of any cou...
This paper presents a method for the optimal allocation of Distributed generation in distribution sy...
AbstractThe continued interest in the distributed generation in recent years is leading to a number ...
Power distribution networks typically have tie and sectionalizing switches whose states determine th...
Abstract-Over 50 years Malaysia is using the same power transmission channel from the colonial of th...
AbstractThis paper describes the implementation of an algorithm which predicts optimum reconfigurati...
The problem of optimal phase-balancing in three-phase asymmetric distribution networks is addressed ...
In this paper, a multi-objective reactive power optimization model of distribution network is establ...