THD Reduction Using Shunt Active Power Filter: A Real Case Study

Abstract: Harmonic pollution in the industrial field causes extra heat dissipation and increased rms (root mean square) values of both voltage and current waveforms, which hence increase losses, decrease the overall efficiency, and increase the energy cost in power plants. Moreover, harmonic pollution results in a decline in industrial investment. A solution to mitigate harmonic pollution is proposed using an active power filter by identifying both the phase current and the voltage and then providing a compensation curr… Show more

“…If αP is a positive delay angle, then delay angle for the negative converter is αN = π -αP. The average output voltage of the positive converter (P) is the same and is opposite to the negative converter (N) [14] [15].…”

“…Where 𝑋 𝑛 is the RMS of a certain waveform at harmonic order n, N is the supreme harmonic order and 𝑋 1 is the fundamental RMS value of the same waveform [14].…”

Performance Comparison Modeling Between Single-phase Cycloconverters and Three-phase Cycloconverters Using Matlab Simulink Tools

“…If αP is a positive delay angle, then delay angle for the negative converter is αN = π -αP. The average output voltage of the positive converter (P) is the same and is opposite to the negative converter (N) [14] [15].…”

“…Where 𝑋 𝑛 is the RMS of a certain waveform at harmonic order n, N is the supreme harmonic order and 𝑋 1 is the fundamental RMS value of the same waveform [14].…”

Performance Comparison Modeling Between Single-phase Cycloconverters and Three-phase Cycloconverters Using Matlab Simulink Tools

Performance Analysis of Effective Controller for Active Power Filter using PUC5 Inverter for Improving Power Quality

SMC Controlled SAF for Reduction of Harmonics in DN