Real-time stability assessment in modern power system control centers /

Real-time stability assessment in modern power system control centers /

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Bibliographic Details
Imprint:Hoboken, N.J. : John Wiley & Sons, c2009.
Description:1 online resource (xxviii, 425 p.) : ill. maps.
Language:English
Series:IEEE Press series on power engineering
IEEE Press series on power engineering.
Subject:
Electric power system stability.
Electric power systems -- Control.
Real-time control.
Electric power system stability.
Electric power systems -- Control.
Real-time control.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/8680220
Hidden Bibliographic Details
Other authors / contributors:Savulescu, Savu Crivat.
ISBN:9780470423912
0470423919
9780470423905 (electronic bk.)
0470423900 (electronic bk.)
Notes:Includes bibliographical references and index.
Other form:Print version: Real-time stability assessment in modern power system control centers. Hoboken, N.J. : John Wiley & Sons, c2009 9780470233306 0470233303
Standard no.:10.1002/9780470423912
Table of Contents:
  • Preface
  • Contributors
  • 1. The Real-Time and Study-Mode Data Environment in Modern SCADA/EMS
  • 1.1. Introduction
  • 1.2. SCADA/EMS Architectures
  • 1.3. Integrating Stability Applications with the SCADA/EMS
  • 1.4. References
  • 2. Overview of Key Stability Concepts Applied for Real-Time Operations
  • 2.1. Introduction
  • 2.2. In Search of the Stability Limits
  • 2.3. Transient and Voltage Stability Limits
  • 2.4. Steady-State Stability Limits
  • 2.5. Concluding Remarks
  • 2.6. References
  • Annex 1-1. Reactive Power Steady-State Stability Criterion d¿Q/dV
  • 3. LIPA Implementation of Real-Time Stability Monitoring in a CIM Compliant Environment
  • 3.1. Introduction
  • 3.2. Static and Dynamic Security Assessment at LIPA
  • 3.3. Benchmarking the Real-Time Stability Application
  • 3.4. Practical Experience and Outlook
  • 3.5. References
  • 4. Real-Time Stability Monitoring at the Independent System Operator in Bosnia and Herzegovina
  • 4.1. Introduction
  • 4.2. Interim Implementation of Real-Time Stability Assessment at NOS BiH
  • 4.3. Real-Time Stability Assessment in the New SCADA/EMS Environment
  • 4.4. Conclusions and Recommendations
  • 4.5. References
  • Annex 4-1. TSL, TTC, and the Stability Envelope
  • Annex 4-2. Siemens Implementation of the Continuation Power Flow
  • 5. Experience with Real-Time Stability Assessment at Transelectrica
  • 5.1. Introduction
  • 5.2. Security Assessment Philosophy and Criteria
  • 5.3. Real-Time Steady-State Stability Assessment and Monitoring
  • 5.4. Off-Line Stability Tools in Support of System Operations
  • 5.5. Conclusions and Outlook
  • 5.6. References
  • 6. Implementation of Online Dynamic Security Assessment at Southern Company
  • 6.1. Introduction
  • 6.2. DSA Implementation Fundamentals
  • 6.3. Transient Security Assessment Implementation at Southern Company
  • 6.4. Conclusions
  • 6.5. References
  • Annex 6-1. Further Details of the DSA Software and Hardware Architecture
  • Description of the Core DSA Software
  • Online DSA Implementation Using DSATools
  • 7. Online Security Assessment for the Brazilian System: A Detailed Modeling Approach
  • 7.1. Introduction
  • 7.2. Security Criteria and Functions
  • 7.3. Solution Methods and Architecture
  • 7.4. Practical Implementation Aspects
  • 7.5. User Interface And Performance
  • 7.6. Concluding Remarks
  • 7.7. Acknowledgments
  • 7.8. References
  • 8. Dynamic Network Security Analysis in a Load Dispatch Center
  • 8.1. Introduction
  • 8.2. Siemens Approach to Dynamic Security Assessment
  • 8.3. Case Studies: Challenges, Implementation Approach, and Solution Features
  • 8.4. References
  • Annex 8-1. Further Dynamic Simulation Capabilities
  • Time Frame for Dynamic Simulations
  • Simulation in the Frequency Domain
  • Eigenvalue and Modal Analysis
  • 9. Real-Time Transient Security Assessment in Australia at NEMMCO
  • 9.1. Introduction
  • 9.2. Transient Security Assessment at NEMMCO
  • 9.3. Performance and Reliability
  • 9.4. Experience, Benefits, and Outlook
  • 9.5. References
  • 10. Online Voltage Security Assessment in the Hellenic Interconnected System
  • 10.1. Introduction
  • 10.2. The Control Center of HTSO
  • 10.3. Online VSA in the Hellenic System
  • 10.4. Use of Online VSA For Arming Load-Shedding Protection
  • 10.5. Conclusion
  • 10.6. References
  • Annex 10-1. Quasi-Steady-State Simulation
  • Principle of the QSS Approximation
  • Handling of Frequency in QSS Simulation
  • QSS Model of the Synchronous Machine and its Regulations
  • Numerical Integration of the QSS Model
  • 11. The Real-Time Supervision of Transmission Capacity in the Swedish Grid
  • 11.1. Introduction
  • 11.2. Prior and Current Application Development at SVK
  • 11.3. Voltage Security Assessment with SPICA
  • 11.4. Benefiting from the Knowledge of the Current Transmission Capacity
  • 11.5. Additional SPICA Functionality
  • 11.6. Summary
  • Appendix A. Dimo's Approach to Steady-State Stability Assessment: Methodology Overview, Numerical Example, and Algorithm Validation
  • A.1. Methodology Overview
  • A.2. Numerical Example?Independent Testing of Algorithm Implementation
  • A.3. Benchmarking the Methodology
  • A.4. Conclusions
  • A.5. References
  • Appendix B. SIME: A Comprehensive Approach to Transient Stability
  • B.1. Introduction
  • B.2. Basic Formulation
  • B.3. Preventive SIME
  • B.4. Emergency SIME
  • B.5. Postface
  • B.6. References
  • Notation
  • Abbreviations and Acronyms
  • Appendix C. Detection and Evaluation of Stability Constrained
  • C.1. Introduction
  • C.2. Approach
  • C.3. Conclusions
  • C.4. References
  • Index

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