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E-grāmata: Simulation and Analysis of Modern Power Systems

  • Formāts: 256 pages
  • Izdošanas datums: 19-Feb-2021
  • Izdevniecība: McGraw-Hill Education
  • Valoda: eng
  • ISBN-13: 9781260464511
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Simulation and Analysis of Modern Power SystemsPalielināt
  • Formāts: 256 pages
  • Izdošanas datums: 19-Feb-2021
  • Izdevniecība: McGraw-Hill Education
  • Valoda: eng
  • ISBN-13: 9781260464511
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"This is an upper undergraduate, graduate, and professional book teaching modelling and simulation tools and techniques for modern power systems"--

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

Master the modeling, analysis, and simulation of today’s power systems

This comprehensive textbook discusses power engineering modelling and simulation tools and their applications in present-day power systems. Written by a recognized expert in the field, Simulation and Analysis of Modern Power Systems contains real-world examples worked out in MATLAB, PSCAD, and Power World EMTP and Real Time Digital Simulator (RTDS). You will get a thorough overview of power system fundamentals and learn, step by step, how to efficiently emulate and analyze most frequently used power system components. The book introduces the Real Time Digital Simulator (RTDS) and explains its Hardware-In-Loop (HIL) capabilities.

Coverage includes:

  • Modelling of various power system components
  • Newton Raphson Load Flow Analysis (NRLF)
  • Probabilistic load flow
  • Power system dynamic state estimation
  • Power system contingency analysis
  • Voltage stability studies
  • Transient stability studies
  • Real-time digital simulators
  • Hardware-in-loop testing of relays
  • Recursive DFT-based phasor estimation technique



Preface xi
Acknowledgment xiii
1 Modeling Of Various Power System Components
1(32)
1.1 Objective
1(1)
1.2 Software Used
1(1)
1.3 Theory
1(2)
1.4 Procedure
3(27)
1.5 Exercise
30(3)
2 Newton Raphson Load Flow Analysis (Nrlf)
33(20)
2.1 Objectives
33(1)
2.2 Software Used
33(1)
2.3 Theory
33(2)
2.3.1 Without Considering Transformer Taps
34(1)
2.3.2 With Considering Transformer Taps
34(1)
2.4 Procedure of YBUS Formulation
35(1)
2.5 Test Case Results
36(5)
2.6 A Quick Recap of the N-R Method
41(1)
2.7 N-R in Loadflow Solutions
41(4)
2.8 Loadflow Outputs
45(1)
2.9 Procedure
46(6)
2.9.1 Results
51(1)
2.10 Exercise Problem
52(1)
3 Probabilistic Load Flow
53(8)
3.1 Objective
53(1)
3.2 Software Used
53(1)
3.3 Theory
53(3)
3.3.1 DLF for Distribution System
53(3)
3.3.2 DG Modeling
56(1)
3.3.3 Load Modeling
56(1)
3.4 Procedure
56(3)
3.4.1 Test Case Results
57(2)
3.5 Exercise Problem
59(2)
4 Power System Dynamic State Estimation
61(16)
4.1 Objective
61(1)
4.2 Software Used
61(1)
4.3 Theory
61(4)
4.4 Procedure
65(10)
4.5 Exercise Problem
75(2)
5 Power System Contingency Analysis
77(18)
5.1 Objective
77(1)
5.2 Software Used
77(1)
5.3 Theory
77(5)
5.4 Procedure
82(10)
5.5 Exercise Problems
92(3)
6 Voltage Stability Studies
95(18)
6.1 Objective
95(1)
6.2 Software Used
95(1)
6.3 Theory
95(4)
6.3.1 Causes for Voltage Instability and Voltage Collapse
97(1)
6.3.2 Voltage Instability Prevention and Control
97(1)
6.3.3 Tools for Voltage Stability Analysis
98(1)
6.4 Procedure
99(13)
6.5 Exercise Problems
112(1)
7 Transient Stability Studies
113(20)
7.1 Objective
113(1)
7.2 Software Used
113(1)
7.3 Theory
113(2)
7.4 Procedure
115(16)
7.5 Exercise Problem
131(2)
8 Real-Time Digital Simulator: A Brief Introduction
133(8)
8.1 Objective
133(1)
8.2 Capabilities
133(8)
9 Hardware-In-Loop Testing Of Relay
141(10)
9.1 Objective
141(1)
9.2 Software and Hardware Required
141(1)
9.3 Theory
141(2)
9.4 Procedure
143(5)
9.5 Precautions
148(3)
10 Recursive Dft-Based Phasor Estimation Technique Testing
151(18)
10.1 Objectives
151(1)
10.2 Software Used
151(1)
10.3 Hardware Used
151(1)
10.4 Theory
151(7)
10.4.1 Fundamentals of Phasor Representation
152(3)
10.4.2 A Brief Review of DFT
155(1)
10.4.3 Non-recursive DFT
156(1)
10.4.4 Recursive DFT
157(1)
10.5 Procedure
158(9)
10.5.1 In Presence of Nominal System Frequency
159(1)
10.5.2 In Presence of Off-nominal System Frequency
159(2)
10.5.3 In Presence of Decaying DC Component
161(3)
10.5.4 In Presence of Harmonics and Noise
164(3)
10.6 Exercise Problem
167(2)
A dSPACE and Real-Time Interface in Simulink 169(12)
Bibliography 181(2)
Index 183
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