UID:
edocfu_9959327344902883
Umfang:
1 online resource
ISBN:
9781119536772
,
1119536774
,
9781119486282
,
1119486289
Inhalt:
The groundbreaking book that details the fundamentals of reliability modeling and evaluation and introduces new and future technologies Electric Power Grid Reliability Evaluation deals with the effective evaluation of the electric power grid and explores the role that this process plays in the planning and designing of the expansion of the power grid. The book is a guide to the theoretical approaches and processes that underpin the electric power grid and reviews the most current and emerging technologies designed to ensure reliability. The authors#x97;noted experts in the field#x97;also present the algorithms that have been developed for analyzing the soundness of the power grid. A comprehensive resource, the book covers probability theory, stochastic processes, and a frequency-based approach in order to provide a theoretical foundation for reliability analysis. Throughout the book, the concepts presented are explained with illustrative examples that connect with power systems. The authors cover generation adequacy methods, and multi-node analysis which includes both multi-area as well as composite power system reliable evaluation. This important book: . Provides a guide to the basic methods of reliability modeling and evaluation. Contains a helpful review of the background of power system reliability evaluation. Includes information on new technology sources that have the potential to create a more reliable power grid. Addresses renewable energy sources and shows how they affect power outages and blackouts that pose new challenges to the power grid system Written for engineering students and professionals, Electric Power Grid Reliability Evaluation is an essential book that explores the processes and algorithms for creating a sound and reliable power grid.
Anmerkung:
Preface xiii -- Acknowledgments xv -- Figures xvii -- Tables xxi -- Part I Concepts and Methods in System Reliability 1 -- 1 Introduction to Reliability 3 -- 1.1 Introduction 3 -- 1.2 Quantitative Reliability 4 -- 1.3 Basic Approaches for Considering Reliability in Decision-Making 6 -- 1.4 Objective and Scope of This Book 8 -- 1.5 Organization of This Book 9 -- 2 Review of Probability Theory 11 -- 2.1 Introduction 11 -- 2.2 State Space and Event 11 -- 2.3 Probability Measure and Related Rules 16 -- 2.4 Random Variables 25 -- 2.5 Jointly Distributed Random Variables 31 -- 2.6 Expectation, Variance, Covariance and Correlation 32 -- 2.7 Moment Generating Function 36 -- 2.8 Functions of Random Variables 39 -- Exercises 51 -- 3 Review of Stochastic Process 53 -- 3.1 Introduction 53 -- 3.2 Discrete-Time Markov Process 57 -- 3.3 Continuous-Time Markov Process 72 -- Exercises 80 -- 4 Frequency-Based Approach to Stochastic Process 81 -- 4.1 Introduction 81 -- 4.2 Concept of Transition Rate 82 -- 4.3 Concept of Frequency 83 -- 4.4 Concept of Frequency Balance 91 -- 4.5 Equivalent Transition Rate 100 -- 4.6 Coherence 102 -- 4.7 Conditional Frequency 104 -- 4.8 Time-Specific Frequency 109 -- 4.9 Probability to Frequency Conversion Rules 110 -- Exercises 115 -- 5 Analytical Methods in Reliability Analysis 117 -- 5.1 Introduction 117 -- 5.2 State Space Approach 117 -- 5.3 Network Reduction Method 139 -- 5.4 Conditional Probability Method 147 -- 5.5 Cut-Set and Tie-Set Methods 152 -- Exercises 164 -- 6 Monte Carlo Simulation 165 -- 6.1 Introduction 165 -- 6.2 Random Number Generation 166 -- 6.3 Classification of Monte Carlo Simulation Methods 167 -- 6.4 Estimation and Convergence in Sampling 174 -- 6.5 Variance Reduction Techniques 178 -- Exercises 182 -- Part II Methods of Power System Reliability Modeling and Analysis 185 -- 7 Introduction to Power System Reliability 187 -- 7.1 Introduction 187 -- 7.2 Scope of Power System Reliability Studies 187 -- 7.3 Power System Reliability Indices 188.
,
7.4 Considerations in Power System Reliability Evaluation 190 -- 8 Generation Adequacy Evaluation Using Discrete Convolution 193 -- 8.1 Introduction 193 -- 8.2 Generation Model 193 -- 8.3 Load Model 205 -- 8.4 Generation Reserve Model 208 -- 8.5 Determination of Reliability Indices 210 -- 8.6 Conclusion 212 -- Exercises 213 -- 9 Reliability Analysis of Multinode Power Systems 215 -- 9.1 Introduction 215 -- 9.2 Scope and Modeling of Multinode Systems 215 -- 9.3 System Modeling 216 -- 9.4 Power Flow Models and Operating Policies 222 -- 10 Reliability Evaluation of Multi-Area Power Systems 227 -- 10.1 Introduction 227 -- 10.2 Overview of Methods for Multi-Area System Studies 227 -- 10.3 The Method of State Space Decomposition 229 -- 10.4 Conclusion 245 -- Exercises 245 -- 11 Reliability Evaluation of Composite Power Systems 247 -- 11.1 Introduction 247 -- 11.2 Analytical Methods 247 -- 11.3 Monte Carlo Simulation 250 -- 11.4 Sequential Simulation 250 -- 11.5 Nonsequential Simulation 254 -- 11.6 Testing of States 262 -- 11.7 Acceleration of Convergence 263 -- 11.8 State Space Pruning: Concept and Method 263 -- 11.9 Intelligent Search Techniques 268 -- 11.10 Conclusion 272 -- 12 Power System Reliability Considerations in Energy Planning 273 -- 12.1 Introduction 273 -- 12.2 Problem Formulation 275 -- 12.3 Sample Average Approximation (SAA) 279 -- 12.4 Computational Results 282 -- 12.5 Conclusion and Discussion 288 -- 13 Modeling of Variable Energy Resources 291 -- 13.1 Introduction 291 -- 13.2 Characteristics of Variable Energy Resources 292 -- 13.3 Variable Resource Modeling Approaches 293 -- 13.4 Integrating Renewables at the Composite System Level 301 -- 14 Concluding Reflections 305 -- Bibliography 309 -- Index 321.
Sprache:
Englisch
Schlagwort(e):
Electronic books.
URL:
https://onlinelibrary.wiley.com/doi/book/10.1002/9781119536772