Power Quality Improvement Technique
Offered By: NPTEL via YouTube
Course Description
Overview
COURSE OUTLINE: The power quality of modern power distribution systems is vulgarized due to the increased use of distributed sources, adjustable speed drive, nonlinear load and unbalanced load. The main challenge in the distribution system is the mitigation of power quality problems produced by load disturbances and supply disturbances. It can be mitigated by passive filters as well as active filters. The passive filters are economically cheap but their performance is poor compared to the active power filters. Hence active power filters are preferred in the modern power system. These aspects are discussed in this course.
Syllabus
Power Quality Improvement Technique.
Lecture 1: Introduction.
Lecture 02 :Overview.
Lecture 03 : Overview II.
Lecture 04 : Overview III.
Lecture 05: Source of Poor Power quality.
Lecture 06: Source of Poor Power quality - II.
Lecture 07 : AC Power Quality Standard.
Lecture 08: Improvement of Power Factor By Capacitor.
Lecture 09: Passive Filter.
Lecture 10: Passive Filter - II.
Lecture 11:Passive Filter Design.
Lecture 12: Passive Filter Design -II.
Lecture 13: PWM Rectifier.
Lecture 14: PWM Rectifier -II.
Lecture 15: PWM Rectifier -III.
Lecture 16:Three Phase Converter.
Lecture 17: Three phase Converters- II and Multipulse Converters.
Lecture 18: Three phase Converter III and Multipulse Converters.
Lecture 19: VSI and CSI.
Lecture 20: Multilevel Inverter.
Lecture 21:Multilevel Inverter II.
Lecture 22: Multilevel Inverter - III.
Lecture 23: PWM for Voltage Source Inverter.
Lecture 24: PWM for Voltage Source Inverter-II.
Lecture 25: PWM for Voltage Source Inverter -III.
Lecture 26: PWM for Voltage Source Inverter -IV.
Lecture 27: Operation and Control of grid Connected VSC.
Lecture 28: Grid Connected VSC with Inner Current Control.
Lecture 29: Shunt Active Power Filter.
Lecture 30: Shunt Active Power Filter -II.
Lecture 31: Shunt Active Power Filter III.
Lecture 32: Shunt Active Power Filter- IV.
Lecture 33: Hybrid Active Power Filter.
Lecture 34: Hybrid Active Power Filter -II.
Lecture 35 : Hybrid Shunt Active Power Filter.
Lecture 36: UPQC Introduction and Classification.
Lecture 37: UPQC Classification.
Lecture 38 : Operational and Control UPQC.
Lecture 39: Control of UPQC.
Lecture 40: Conclusion.
Taught by
IIT Roorkee July 2018
Tags
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