Distribution networks for low voltage (LV) are three-phase networks. It mostly serves single-phase end customers with a variety of load characteristics. Because each customer's load behavior differs, the current on the LV networks feeder is shared unequally, leading in an im-balance problem. This research investigates an efficient distribution of single-phase loads amongst three phase networks using the salp swarm algorithm (SSA) to phase swap consumers between phases. Customers are rearranged and their loads are switched from heavy to light to achieve phase shifting. Jordan's electricity distribution company (EDCO) has provided a full load feeder as a case study. The results of switching loads to a three-phase feeder show that the im-balan...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Due to the single-phase loads and their stochastic behavior, the current in the distribution feeders...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
In this paper, a new efficient method for load balancing in low voltage distribution systems is pres...
Voltage unbalance and magnitude violations under normal operating conditions have become main power ...
Voltage and current imbalance have adverse impacts on power systems such as power loss increase, com...
Abstract:Secondary distribution networks generally perform as well as its LV feeders are performing....
Network optimization is vital requirement for all the electricity distribution companies. Energy los...
The problem of optimal phase-balancing in three-phase asymmetric distribution networks is addressed ...
In this paper a modified version of the Harmony Search al- gorithm is proposed as a novel tool for p...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
To dynamically reduce voltage unbalance (VU) along low voltage distribution feeders, a distributed i...
The electricity distribution system is the coupling point between the utility and the end-user. Typi...
This paper presents a genetic algorithm (GA) based reconfiguration method for consumer loads connect...
Abstract: In power distribution systems, feeders frequently exhibit some imbalance between phases. F...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Due to the single-phase loads and their stochastic behavior, the current in the distribution feeders...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
In this paper, a new efficient method for load balancing in low voltage distribution systems is pres...
Voltage unbalance and magnitude violations under normal operating conditions have become main power ...
Voltage and current imbalance have adverse impacts on power systems such as power loss increase, com...
Abstract:Secondary distribution networks generally perform as well as its LV feeders are performing....
Network optimization is vital requirement for all the electricity distribution companies. Energy los...
The problem of optimal phase-balancing in three-phase asymmetric distribution networks is addressed ...
In this paper a modified version of the Harmony Search al- gorithm is proposed as a novel tool for p...
This project is a step forward in developing effective methods to mitigate voltage unbalance in urba...
To dynamically reduce voltage unbalance (VU) along low voltage distribution feeders, a distributed i...
The electricity distribution system is the coupling point between the utility and the end-user. Typi...
This paper presents a genetic algorithm (GA) based reconfiguration method for consumer loads connect...
Abstract: In power distribution systems, feeders frequently exhibit some imbalance between phases. F...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...
Due to the single-phase loads and their stochastic behavior, the current in the distribution feeders...
Low-voltage (LV) feeder voltage magnitude and unbalance are often the constraining factors on a feed...