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Power System Load Flow Analysis

1st Edition

0071447792 · 9780071447799

By Lynn Powell

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.This rigorous tutorial is aimed at both power system profes… Read More

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CHAPTER 1. SYSTEM REPRESENTATION

CHAPTER 2. THE LOAD FLOW PROBLEM

CHAPTER 3. REFERENCE SYSTEM

CHAPTER 4. JACOBI METHOD

CHAPTER 5. GAUSS-SEIDEL METHOD

CHAPTER 6. Z-MATRIX METHODS

CHAPTER 7. NEWTON-RAPHSON METHODS

CHAPTER 8. NEWTON-RAPHSON METHOD USING CARTESIAN COORDINATES

CHAPTER 9: NEWTON-RAPHSON METHOD USING POLAR COORDINATES

CHAPTER 10: FAST DECOUPLED METHOD

CHAPTER 11: DC LOAD FLOW

CHAPTER 12: VOLTAGE CONTROL (1): GENERATORS

CHAPTER 13: VOLTAGE CONTROL (2): ON-LOAD TAP-CHANGING (OLTC) TRANSFORMERS

CHAPTER 14: RESULTS OUTPUT

CHAPTER 15: SOLUTION DIFFICULTIES

APPENDIX

REFERENCE

INDEX

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.

This rigorous tutorial is aimed at both power system professionals and electrical engineering students. Breaking down the complexities of load flow analysis into a series of short, focused chapters, the book develops each of the major algorithms used, covers the handling of generators and transformers in the analysis process, and details how these algorithms can be deployed in powerful software. Having read the book, and EE student or engineer will have all the tools necessary to predict load usage and prevent overloads, blackouts, and brownouts.