Log In
Or create an account ->
Imperial Library
Home
About
News
Upload
Forum
Help
Login/SignUp
Index
Cover
IEEE Press
Title page
Copyright
FOREWORD
PREFACE
ACKNOWLEDGMENT
CONTRIBUTORS
PART I INTEGRATED SYSTEM AND MARKET OPERATION
CHAPTER 1 BALANCE ECONOMIC EFFICIENCY AND OPERATION RISK MITIGATION
1.1 POWER SYSTEM OPERATION RISK MITIGATION: THE PHYSICS
1.2 INTEGRATED SYSTEM AND MARKET OPERATION: THE BASICS
1.3 ECONOMIC EFFICIENCY EVALUATION AND IMPROVEMENT: THE ECONOMICS
1.4 FINAL REMARKS
APPENDIX 1.A NOMENCLATURE
APPENDIX 1.B ELECTRICITY MARKET MODEL
REFERENCES
DISCLAIMER
CHAPTER 2 MITIGATE MARKET POWER TO IMPROVE MARKET EFFICIENCY
2.1 INTRODUCTION
2.2 PRICE FORMATION IN ELECTRICITY MARKETS
2.3 PRICE AND OFFER CAPS
2.4 ABILITY AND INCENTIVE TO EXERCISE MARKET POWER
2.5 MARKET POWER MITIGATION APPROACHES
2.6 CONCLUSION
ACKNOWLEDGMENTS
NOTES
REFERENCES
PART II UNDER SMART GRID ERA
CHAPTER 3 MASS MARKET DEMAND RESPONSE MANAGEMENT FOR THE SMART GRID
3.1 OVERVIEW
3.2 INTRODUCTION
3.3 DISTRIBUTED COMPUTING-BASED DEMAND RESPONSE MANAGEMENT APPROACH
3.4 THE COLORPOWER ARCHITECTURE AND CONTROL ALGORITHMS
3.5 INTEGRATION WITH THE WHOLESALE ENERGY MARKET
3.6 EQUALIZING MARKET POWER BETWEEN SUPPLY AND DEMAND
3.7 GENERALIZATION BEYOND DEMAND RESPONSE
3.8 A NUMERICAL EXAMPLE
3.9 CONCLUDING REMARKS
APPENDIX 3.A NOMENCLATURE
REFERENCES
CHAPTER 4 IMPROVE SYSTEM PERFORMANCE WITH LARGE-SCALE VARIABLE GENERATION ADDITION
4.1 REVIEW OF REGULATION AND ANCILLARY SERVICES
4.2 DAY-AHEAD REGULATION FORECAST AT CAISO
4.3 RAMPING AND UNCERTAINTIES EVALUATION AT CAISO
4.4 QUANTIFYING THE REGULATION SERVICE REQUIREMENTS AT ERCOT
4.5 CONCLUSIONS
APPENDIX 4.A NOMENCLATURE
NOTES
REFERENCES
PART III STOCHASTIC APPLICATIONS
CHAPTER 5 SECURITY-CONSTRAINED UNIT COMMITMENT WITH UNCERTAINTIES
5.1 INTRODUCTION
5.2 SCUC
5.3 UNCERTAINTIES IN EMERGING POWER SYSTEMS
5.4 MANAGING THE RESOURCE UNCERTAINTY IN SCUC
5.5 ILLUSTRATIVE RESULTS
5.6 CONCLUSIONS
APPENDIX 5.A NOMENCLATURE
ACKNOWLEDGMENTS
REFERENCES
CHAPTER 6 DAY-AHEAD SCHEDULING: RESERVE DETERMINATION AND VALUATION
6.1 THE NEED OF RESERVES FOR POWER SYSTEM OPERATION
6.2 RESERVE DETERMINATION VIA STOCHASTIC PROGRAMMING
6.3 RESERVE DETERMINATION VIA ADAPTIVE ROBUST OPTIMIZATION
6.4 STOCHASTIC PROGRAMMING VS. ADAPTIVE ROBUST OPTIMIZATION
6.5 RESERVE VALUATION
6.6 SUMMARY, CONCLUDING REMARKS, AND RESEARCH NEEDS
APPENDIX 6.A NOMENCLATURE
REFERENCES
PART IV HARNESS TRANSMISSION FLEXIBILITY
CHAPTER 7 IMPROVED MARKET EFFICIENCY VIA TRANSMISSION SWITCHING AND OUTAGE EVALUATION IN SYSTEM OPERATIONS
7.1 BACKGROUND
7.2 BASIC DISPATCH MODEL FOR MARKET CLEARING
7.3 ECONOMIC EVALUATION OF TRANSMISSION OUTAGE
7.4 OPTIMAL TRANSMISSION SWITCHING
7.5 SELECTION OF CANDIDATE TRANSMISSION LINES FOR SWITCHING AND IMPLEMENTATION OF OTS
7.6 TEST CASES
7.7 FINAL REMARKS
APPENDIX 7.A NOMENCLATURE
REFERENCES
CHAPTER 8 TOWARD VALUING FLEXIBILITY IN TRANSMISSION PLANNING
8.1 INTRODUCTION
8.2 SCALE ECONOMIES OF TRANSMISSION TECHNOLOGIES
8.3 DISCONNECT OF CURRENT POWER SYSTEM OPERATIONAL, PLANNING, AND MARKET MECHANISMS
8.4 IMPACT OF OPERATIONAL AND MARKET PRACTICES ON INVESTMENT PLANNING
8.5 INFORMATION AND RISK SHARING IN THE FACE OF UNCERTAINTIES
8.6 CHALLENGES IN DESIGNING FINANCIAL RIGHTS FOR FLEXIBILITY
8.7 CONCLUSIONS
APPENDIX 8.A NOMENCLATURE
APPENDIX 8.B MATHEMATICAL MODELS USED FOR CASE STUDIES
APPENDIX 8.C INVESTMENT COST
REFERENCES
INDEX
IEEE Press Series on Power Engineering
EULA
← Prev
Back
Next →
← Prev
Back
Next →