Sun, Kai, 1976-
Power system control under cascading failures : understanding, mitigation, and system restoration / Kai Sun, Yunhe Hou, Wei Sun, Junjian Qi. - 1 online resource
Includes index.
Intro; Title Page; Copyright Page; Contents; About the Companion Website; Chapter 1 Introduction; 1.1 Importance of Modeling and Understanding Cascading Failures; 1.1.1 Cascading Failures; 1.1.2 Challenges in Modeling and Understanding Cascading Failures; 1.2 Importance of Controlled System Separation; 1.2.1 Mitigation of Cascading Failures; 1.2.2 Uncontrolled and Controlled System Separations; 1.3 Constructing Restoration Strategies; 1.3.1 Importance of System Restoration; 1.3.2 Classification of System Restoration Strategies; 1.3.3 Challenges of System Restoration; 1.4 Overview of the Book 2.2.7 Cascading Failure Models Considering Dynamics and Detailed ProtectionsReferences; Chapter 3 Understanding Cascading Failures; 3.1 Self-Organized Criticality; 3.1.1 SOC Theory; 3.1.2 Evidence of SOC in Blackout Data; 3.2 Branching Processes; 3.2.1 Definition of the Galton-Watson Branching Process; 3.2.2 Estimation of Mean of the Offspring Distribution; 3.2.3 Estimation of Variance of the Offspring Distribution; 3.2.4 Processing and Discretization of Continuous Data; 3.2.5 Estimation of Distribution of Total Outages; 3.2.6 Statistical Insight of Branching Process Parameters 3.2.7 Branching Processes Applied to Line Outage Data3.2.8 Branching Processes Applied to Load Shed Data; 3.2.9 Cross-Validation for Branching Processes; 3.2.10 Efficiency Improvement by Branching Processes; 3.3 Multitype Branching Processes; 3.3.1 Estimation of Multitype Branching Process Parameters; 3.3.2 Estimation of Joint Probability Distribution of Total Outages; 3.3.3 An Example for a Two-Type Branching Process; 3.3.4 Validation of Estimated Joint Distribution; 3.3.5 Number of Cascades Needed for Multitype Branching Processes; 3.3.6 Estimated Parameters of Branching Processes 3.3.7 Estimated Joint Distribution of Total Outages3.3.8 Cross-Validation for Multitype Branching Processes; 3.3.9 Predicting Joint Distribution from One Type of Outage; 3.3.10 Estimating Failure Propagation of Three Types of Outages; 3.4 Failure Interaction Analysis; 3.4.1 Estimation of Interactions between Component Failures; 3.4.2 Identification of Key Links and Key Components; 3.4.3 Interaction Model; 3.4.4 Validation of Interaction Model; 3.4.5 Number of Cascades Needed for Failure Interaction Analysis; 3.4.6 Estimated Interaction Matrix and Interaction Network
9781119282051 1119282055 9781119282068 1119282063 9781119282075 1119282071
2018042297
Electric power systems--Control.
Electric power system stability.
Electric power failures.
Electric power failures.
Electric power system stability.
Electric power systems--Control.
TECHNOLOGY & ENGINEERING / Mechanical
Electronic books.
TK1007 / .S86 2019
621.31/7
Power system control under cascading failures : understanding, mitigation, and system restoration / Kai Sun, Yunhe Hou, Wei Sun, Junjian Qi. - 1 online resource
Includes index.
Intro; Title Page; Copyright Page; Contents; About the Companion Website; Chapter 1 Introduction; 1.1 Importance of Modeling and Understanding Cascading Failures; 1.1.1 Cascading Failures; 1.1.2 Challenges in Modeling and Understanding Cascading Failures; 1.2 Importance of Controlled System Separation; 1.2.1 Mitigation of Cascading Failures; 1.2.2 Uncontrolled and Controlled System Separations; 1.3 Constructing Restoration Strategies; 1.3.1 Importance of System Restoration; 1.3.2 Classification of System Restoration Strategies; 1.3.3 Challenges of System Restoration; 1.4 Overview of the Book 2.2.7 Cascading Failure Models Considering Dynamics and Detailed ProtectionsReferences; Chapter 3 Understanding Cascading Failures; 3.1 Self-Organized Criticality; 3.1.1 SOC Theory; 3.1.2 Evidence of SOC in Blackout Data; 3.2 Branching Processes; 3.2.1 Definition of the Galton-Watson Branching Process; 3.2.2 Estimation of Mean of the Offspring Distribution; 3.2.3 Estimation of Variance of the Offspring Distribution; 3.2.4 Processing and Discretization of Continuous Data; 3.2.5 Estimation of Distribution of Total Outages; 3.2.6 Statistical Insight of Branching Process Parameters 3.2.7 Branching Processes Applied to Line Outage Data3.2.8 Branching Processes Applied to Load Shed Data; 3.2.9 Cross-Validation for Branching Processes; 3.2.10 Efficiency Improvement by Branching Processes; 3.3 Multitype Branching Processes; 3.3.1 Estimation of Multitype Branching Process Parameters; 3.3.2 Estimation of Joint Probability Distribution of Total Outages; 3.3.3 An Example for a Two-Type Branching Process; 3.3.4 Validation of Estimated Joint Distribution; 3.3.5 Number of Cascades Needed for Multitype Branching Processes; 3.3.6 Estimated Parameters of Branching Processes 3.3.7 Estimated Joint Distribution of Total Outages3.3.8 Cross-Validation for Multitype Branching Processes; 3.3.9 Predicting Joint Distribution from One Type of Outage; 3.3.10 Estimating Failure Propagation of Three Types of Outages; 3.4 Failure Interaction Analysis; 3.4.1 Estimation of Interactions between Component Failures; 3.4.2 Identification of Key Links and Key Components; 3.4.3 Interaction Model; 3.4.4 Validation of Interaction Model; 3.4.5 Number of Cascades Needed for Failure Interaction Analysis; 3.4.6 Estimated Interaction Matrix and Interaction Network
9781119282051 1119282055 9781119282068 1119282063 9781119282075 1119282071
2018042297
Electric power systems--Control.
Electric power system stability.
Electric power failures.
Electric power failures.
Electric power system stability.
Electric power systems--Control.
TECHNOLOGY & ENGINEERING / Mechanical
Electronic books.
TK1007 / .S86 2019
621.31/7