MODERN POWER SYSTEM ANALYSIS

Kothari, D P

MODERN POWER SYSTEM ANALYSIS - 3rd - New Delhi Tata Mcgraw Hill 2009 - 694p.

1. Introduction
2. Inductance and Resistance of Transmission Lines
3. Capacitance of Transmission Lines
4. Representation of Power System Components
5. Characteristics and Performance of Power Transmission Lines
6. Load Flow Studies
7. Optimal System Operation
8. Automatic Generation and Voltage Control
9. Symmetrical Fault Analysis
10. Symmetrical Components
11. Unsymmetrical Fault Analysis
12. Power System Stability
13. Power System Transients
14. High Voltage DC (HVDC) Transmission
15. Power System Security
16. Voltage Stability
17. An Introduction to State Estimation of Power Systems
18. Compensation in Power Systems
19. Load Forecasting Technique
Appendix A: Introduction to Vector and Matrix Algebra
Appendix B: Generalised Circuit Constants
Appendix C: Triangular Factorisation and Optimal Ordering
Appendix D: Elements of Power System Jacobian Matrix
Appendix E: Kuhn-Tucker Theorem
Appendix F: Real-time Computer Control of Power Systems
Appendix G: Some Aspects of Smart Grid
Appendix H: Introduction to MATLAB and SIMULINK
Appendix I: Substations
Appendix J: Convergence of Load Flow Methods
Appendix K: Power Quality: An Overview
Appendix L: Recent Trends in Power System Communication
Appendix M: Restructured and Deregulated Power System
Appendix N: Power System Reliability Studies
Appendix O: Emission Control
Appendix P: Generator Maintenance Scheduling

9780070494893


Inductance and Resistance of Transmission Lines, Characteristics and Performance of Power Transmission Lines, Power System Security

621.319 KOT-M
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