| Description |
1 online resource |
| Summary |
"Providing full coverage of the basic principles on the subject, Wide Area Power System Monitoring and Control highlights key technologies for monitoring, protection, and control. The strong author team explores a host of cutting-edge topics, including renewable energy sources, smart grids, wide area stabilizing, as well as coordinated voltage regulation and angle oscillation damping. Complemented by end-of-chapter problems and solutions, as well as case studies, this comprehensive handbook provides engineers/operators and graduate students with an in-depth overview of WPSMC understanding, analysis, synthesis, and implementation"-- Provided by publisher |
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"The book is a reference for researchers and engineers working on power system control and operation"-- Provided by publisher |
| Bibliography |
Includes bibliographical references and index. |
| Contents |
Preface vii -- About the Author ix -- About the Contributor ix -- INTRODUCTION 1 -- Chapter 1: Beginning Your CPA Review Program 3 -- Chapter 2: Examination Grading 17 -- Chapter 3: The Solutions Approach 19 -- Chapter 4: Taking The Examination 27 -- Chapter 5: Exam Content Overview 31 -- FINANCIAL ACCOUNTING AND REPORTING 39 -- Module 9: Basic Theory and Financial Reporting 41 -- Module 10: Inventory 217 -- Module 11: Fixed Assets 267 -- Module 12: Monetary Current Assets and Current Liabilities 329 -- Module 13: Present Value 395 -- Module 14: Deferred Taxes 537 -- Module 15: Stockholders' Equity 577 -- Module 16: Investments 639 -- Module 17: Statement of Cash Flows 687 -- Module 18: Business Combinations and Consolidations 725 -- Module 19: Derivative Instruments and Hedging Activities 785 -- Module 20: Miscellaneous 825 -- Module 21: Governmental (State and Local) Accounting 897 -- Module 22: Not-for-Profit Accounting 983 -- APPENDICES 1017 -- Appendix A: Outlines of Accounting Pronouncements 1019 -- Appendix B: Financial Accounting and Reporting Sample Examination 1137 -- Appendix C: Sample Financial Accounting and Reporting Testlet Released by AICPA 1171 -- Appendix D: 2014 Released AICPA Questions for Financial Accounting and Reporting 1179 -- INDEX 1201. |
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Machine generated contents note: 1.1. Synchronized Phasor Measurement -- 1.2. Power System Monitoring and Control with Wide-Area Measurements -- 1.3. ICT Architecture Used in Wide-Area Power System Monitoring and Control -- 1.4. Summary -- References -- 2.1. Oscillation Characteristics in Power Systems -- 2.1.1. Eigenvalue Analysis and Participation Factor -- 2.1.2. Oscillation Characteristics in an Interconnected Power System -- 2.2. Overview of Oscillation Monitoring Using Phasor Measurements -- 2.2.1. Monitoring of the Japan Power Network -- 2.2.2. Monitoring of the Southeast Asia Power Network -- 2.3. WAMS-Based Interarea Mode Identification -- 2.4. Low-Frequency Oscillation Dynamics -- 2.4.1. Electromechanical Modes Characteristics -- 2.4.2. Oscillation Characteristics Analyses in Southeast Asia Power Network -- 2.5. Summary -- References -- 3.1. Power System Small-Signal Stability -- 3.2. Oscillation Model Identification Using Phasor Measurements -- 3.2.1. Oscillation Model of the Electromechanical Mode -- 3.2.2. Dominant Mode Identification with Signal Filtering -- 3.3. Small-Signal Stability Assessment of Wide-Area Power System -- 3:3:1. Simulation Study -- 3.3.2. Stability Assessment Based on Phasor Measurements -- 3.3.3. Stability Assessment Based on Frequency Monitoring -- 3.4. Summary -- References -- 4.1. Importance of Graphical Tools in WAMS -- 4.2. Angle[--]Voltage Deviation Graph -- 4.3. Simulation Results -- 4.3.1. Disturbance in Generation Side -- 4.3.2. Disturbance in Demand Side -- 4.4. Voltage[--]Frequency Deviation Graph -- 4.4.1. ΔV-ΔF Graph for Contingency Assessment -- 4.4.2. ΔV-ΔF Graph for Load Shedding Synthesis -- 4.5. Frequency[--]Angle Deviation Graph -- 4.6. Electromechanical Wave Propagation Graph -- 4.6.1. Wave Propagation -- 4.6.2. Angle Wave and System Configuration -- 4.7. Summary -- References -- 5.1. Power System Stability and Control -- 5.2. Angle and Voltage Control -- 5.3. Frequency Control -- 5.3.1. Frequency Control Dynamic -- 5.3.2. Operating States and Power Reserves -- 5.4. Supervisory Control and Data Acquisition -- 5.5. Challenges, Opportunities, and New Perspectives -- 5.5.1. Application of Advanced Control Methods and Technologies -- 5.5.2. Standards Updating -- 5.5.3. Impacts of Renewable Energy Options -- 5.5.4. RESs Contribution to Regulation Services -- 5.6. Summary -- References -- 6.1. Measurement-Based Controller Design -- 6.2. Controller Tuning Using a Vibration Model -- 6.2.1. Vibration Model Including the Effect of Damping Controllers -- 6.2.2. Tuning Mechanism -- 6.2.3. Simulation Results -- 6.3. Wide-Area Measurement-Based Controller Design -- 6.3.1. Wide-Area Power System Identification -- 6.3.2. Design Procedure -- 6.3.3. Simulation Results -- 6.4. Summary -- References -- 7.1. Need for AVR[--]PSS Coordination -- 7.2. Survey on Recent Achievements -- 7.3. Robust Simultaneous AVR[--]PSS Synthesis Approach -- 7.3.1. Control Framework -- 7.3.2. Developed Algorithm -- 7.3.3. Real-Time Implementation -- 7.3.4. Experiment Results -- 7.4. Wide-Area Measurement-Based Coordination Approach -- 7.4.1. High Penetration of Wind Power -- 7.4.2. Developed Algorithm -- 7.4.3. Application Example -- 7.4.4. Simulation Results -- 7.5. Intelligent AVR and PSS Coordination Design -- 7.5.1. Fuzzy Logic-Based Coordination System -- 7.5.2. Simulation Results -- 7.6. Summary -- References -- 8.1. Conventional Load Shedding and New Challenges -- 8.1.1. Load Shedding: Concept and Review -- 8.1.2. Some Key Issues -- 8.2. Need for Monitoring Both Voltage and Frequency -- 8.3. Simultaneous Voltage and Frequency: Based LS -- 8.3.1. Proposed LS Scheme -- 8.3.2. Implementation -- 8.3.3. Case Studies and Simulation Results -- 8.3.4. Approach for Optimal UFVLS -- 8.3.5. Discussion -- 8.4. Wave Propagation-Based Emergency Control -- 8.4.1. Proposed Control Scheme -- 8.4.2. Simulation Results -- 8.5. Summary -- References -- 9.1. Microgrids -- 9.2. Microgrid Control -- 9.3. Local Controls -- 9.4. Secondary Controls -- 9.5. Global Controls -- 9.6. Central/Emergency Controls -- 9.7. Summary -- References -- 10.1. Local Control Synthesis -- 10.1.1. Robust Voltage Control Design -- 10.1.2. Intelligent Droop-Based Voltage and Frequency Control -- 10.2. Secondary Control Synthesis -- 10.2.1. Intelligent Frequency Control -- 10.2.2. ANN-Based Self-Tuning Frequency Control -- 10.3. Global Control Synthesis -- 10.3.1. Adaptive Energy Consumption Scheduling -- 10.3.2. Power Dispatching in Interconnected MGs -- 10.4. Emergency Control Synthesis -- 10.4.1. Developed LS Algorithm -- 10.4.2. Case Study and Simulation -- 10.5. Summary -- References. |
| Subject |
Electric power systems -- Control.
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Réseaux électriques (Énergie) -- Régulation. |
|
Electric power systems -- Control |
| Added Author |
Watanabe, Masayuki (Electrical engineer)
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Mitani, Yasunori.
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| Other Form: |
Print version: Bevrani, Hassan. Power system monitoring and control. Hoboken, New Jersey : Wiley, 2014 9781118450697 (DLC) 2013041134 |
| ISBN |
9781118852477 (ePub) |
|
1118852478 (ePub) |
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9781118852644 (Adobe PDF) |
|
1118852648 (Adobe PDF) |
|
9781118852422 |
|
1118852427 |
|
9781306821360 |
|
1306821363 |
|
(hardback) |
| Standard No. |
10.1002/9781118852422 doi |
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