An application of artificial intelligence is presented in solving power quality problems using a distribution static compensator (DSTATCOM) in the distribution system involving lagging pf loads. A set of three nonlinear neurons is used to obtain the three phase compensating currents. Another set of three layered feed-forward neural network controls the compensating currents. The developed model works accurately under varying load conditions and provides good dynamic response to the step changes in the load currents. A real time performance is achieved using SIMULINKR/Sim-powersystem (SPS) toolboxes and simulated results adhere to the IEEE-519 standard for improvement of power quality
The power quality, which can affect consumers and their utility, is a key concern of modern power sy...
The power quality of an electrical system is critical for industrial, commercial, and housing applic...
The electronic equipments are extremely sensitive to variation in electric supply. The increasing of...
Electrical distribution system suffers from problems like reactive power burden, unbalance loading a...
The power quality compensator chosen in this paper is a DSTATCOM which integrates a three phase four...
For mitigation of power quality problems in a distribution system, it is important to estimate effec...
This research presents a new approach to analyze harmonics in electrical power distribution network ...
This research presents a new approach to analyze harmonics in electrical power distribution network ...
Voltage sag has been considered to be a serious power quality problem faced by many utilities. Place...
This paper deals with an implementation of three-phase Distribution Static Compensator (DSTATCOM) us...
This research presents a new approach to analyze harmonics in electrical power distribution network ...
Voltage quality issue and invariably power quality has become an important issue in distribution pow...
In this paper, a neural-network (NN)-controlled distribution static compensator (DSTATCOM) using a d...
With an increase of non-linear load in today’s electrical power systems, the rate of power quality d...
As power systems grow in their size and interconnections, their complexity increases. Rising costs d...
The power quality, which can affect consumers and their utility, is a key concern of modern power sy...
The power quality of an electrical system is critical for industrial, commercial, and housing applic...
The electronic equipments are extremely sensitive to variation in electric supply. The increasing of...
Electrical distribution system suffers from problems like reactive power burden, unbalance loading a...
The power quality compensator chosen in this paper is a DSTATCOM which integrates a three phase four...
For mitigation of power quality problems in a distribution system, it is important to estimate effec...
This research presents a new approach to analyze harmonics in electrical power distribution network ...
This research presents a new approach to analyze harmonics in electrical power distribution network ...
Voltage sag has been considered to be a serious power quality problem faced by many utilities. Place...
This paper deals with an implementation of three-phase Distribution Static Compensator (DSTATCOM) us...
This research presents a new approach to analyze harmonics in electrical power distribution network ...
Voltage quality issue and invariably power quality has become an important issue in distribution pow...
In this paper, a neural-network (NN)-controlled distribution static compensator (DSTATCOM) using a d...
With an increase of non-linear load in today’s electrical power systems, the rate of power quality d...
As power systems grow in their size and interconnections, their complexity increases. Rising costs d...
The power quality, which can affect consumers and their utility, is a key concern of modern power sy...
The power quality of an electrical system is critical for industrial, commercial, and housing applic...
The electronic equipments are extremely sensitive to variation in electric supply. The increasing of...