PS4009 Industrial Power System Analysis and Design Syllabus:

PS4009 Industrial Power System Analysis and Design Syllabus – Anna University PG Syllabus Regulation 2021

OBJECTIVE

Students will be able to:

 To impart knowledge on Motor Starting Studies.
 To understand the need for power factor correction and analyse the various methods that are used in the Power Factor Correction studies.
 To learn about the sources of harmonics, evaluate the harmonics present in the power system and mitigate them by filters.
 To analyse the sources that can cause the voltage flicker and find solutions to minimize the flicker.
 To impart knowledge on the ground grid analysis.

UNIT I MOTOR STARTING STUDIES

Introduction-Evaluation Criteria-Starting Methods-System Data-Voltage Drop Calculations-Calculation of Acceleration time-Motor Starting with Limited-Capacity Generators-Computer-Aided Analysis Conclusions.

UNIT II POWER FACTOR CORRECTION STUDIES

Introduction-System Description and Modeling-Acceptance Criteria-Frequency Scan Analysis Voltage Magnification Analysis-Sustained Overvoltage’s-Switching Surge Analysis-Back-to-Back
Switching-Summary and Conclusions.

UNIT III HARMONIC ANALYSIS

Harmonic Sources-System Response to Harmonics-System Model for Computer-Aided Analysis Acceptance Criteria-Harmonic Filters-Harmonic Evaluation-Case Study-Summary and Conclusions.

UNIT IV FLICKER ANALYSIS

Sources of Flicker-Flicker Analysis-Flicker Criteria-Data for Flicker analysis- Case Study-Arc Furnace Load-Minimizing the Flicker Effects-Summary.

UNIT V GROUND GRID ANALYSIS

Introduction-Acceptance Criteria-Ground Grid Calculations-Computer-Aided Analysis – Improving the Performance of the Grounding Grids-Conclusions.

TOTAL: 45 PERIODS

Students will be able to:
CO1: perform motor starting studies.
CO2: To model and carry out power factor correction studies.
CO3: Perform harmonic analysis and reduce the harmonics by using filters.
CO4: Carry out the flicker analysis by proper modeling of the load and its minimization.
CO5: Design the appropriate ground grid for electrical safety.

REFERENCES

1. Ramasamy Natarajan, ”Computer-Aided Power System Analysis”, Marcel Dekker Inc., 2002.

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