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Table of Contents
Preface; Acknowledgments; Contents; List of Figures; List of Tables; 1 Introduction to Programming in GAMS; 1.1 Optimization Problems in Power System; 1.2 GAMS Installation; 1.3 GAMS Elements; 1.4 Conditional Statements; 1.5 Loop Definition in GAMS; 1.5.1 LOOP Statement; 1.5.2 WHILE Statement; 1.5.3 FOR Statement; 1.5.4 REPEAT-UNTIL Statement; 1.6 Linking GAMS and Excels; 1.6.1 Reading from Excel; 1.6.2 Writing to Excel; 1.7 Error Debugging in GAMS; 1.8 General Programming Remarks; 1.9 Book Structure; References; 2 Simple Examples in GAMS; 2.1 Different Types of Optimization Models
2.1.1 Linear Programming (LP)2.1.1.1 LP Example; 2.1.1.2 Boundary Determination Example; 2.1.2 Mixed Integer Programming (MIP); 2.1.2.1 MIP Example; 2.1.2.2 N-Queen Example; 2.1.2.3 Emergency Center Allocation; 2.1.3 Nonlinear Programming (NLP); 2.1.3.1 NLP Example (2.14); 2.1.3.2 Circle Placement Example (2.15); 2.1.3.3 Maximizing the Area of a Right Triangle with Constant Circumference; 2.1.4 Quadratic Constrained Programming (QCP); 2.1.4.1 QCP Example (2.17); 2.1.4.2 QCP Example (2.18); 2.1.5 Mixed Integer Nonlinear Programming (MINLP); 2.1.5.1 Minimum Transportation Cost Example (2.19)
4.1 Cost-Based DED4.1.1 Ramp Rate Sensitivity Analysis; 4.1.2 Multi-Objective Cost-Emission Minimization; 4.1.3 Wind Integrated DED; 4.2 Price-Based DED; 4.2.1 Price-Based DED Just Energy Market; 4.2.2 Price-Based DED Energy and Reserve Market; 4.3 Linearized Cost-Based DED; 4.4 Applications; Nomenclature; References; 5 Unit Commitment; 5.1 Cost-Based Unit Commitment; 5.1.1 Cost Calculation; 5.1.2 Ramp Rate Constraints; 5.1.3 Min Up/Down Time Constraints; 5.1.4 Demand-Generation Balance; 5.2 Cost-Based UC with Additional Constraints; 5.2.1 Cost-Based UC with Reserve Constraints
5.2.2 Cost-Based UC Considering Generator Contingency5.2.3 Cost-Based UC with Demand Flexibility Constraints; 5.3 Price-Based Unit Commitment; 5.4 Applications; 5.4.1 Cost-Based UC; 5.4.2 Price-Based UC; References; 6 Multi-Period Optimal Power Flow; 6.1 Single Period Optimal DC Power Flow ; 6.1.1 Three-Bus Network DC-OPF; 6.1.2 Five-Bus Network DC-OPF; 6.1.3 IEEE Reliability Test System 24 Bus; 6.1.3.1 IEEE-RTS: Base Case ; 6.1.3.2 IEEE-RTS: Branch Flow Limit Reduction; 6.1.3.3 IEEE-RTS: Branch Outage; 6.1.3.4 IEEE-RTS: Generator Outage; Nomenclature; 6.2 Multi-Period Optimal Wind-DC OPF
2.1.1 Linear Programming (LP)2.1.1.1 LP Example; 2.1.1.2 Boundary Determination Example; 2.1.2 Mixed Integer Programming (MIP); 2.1.2.1 MIP Example; 2.1.2.2 N-Queen Example; 2.1.2.3 Emergency Center Allocation; 2.1.3 Nonlinear Programming (NLP); 2.1.3.1 NLP Example (2.14); 2.1.3.2 Circle Placement Example (2.15); 2.1.3.3 Maximizing the Area of a Right Triangle with Constant Circumference; 2.1.4 Quadratic Constrained Programming (QCP); 2.1.4.1 QCP Example (2.17); 2.1.4.2 QCP Example (2.18); 2.1.5 Mixed Integer Nonlinear Programming (MINLP); 2.1.5.1 Minimum Transportation Cost Example (2.19)
4.1 Cost-Based DED4.1.1 Ramp Rate Sensitivity Analysis; 4.1.2 Multi-Objective Cost-Emission Minimization; 4.1.3 Wind Integrated DED; 4.2 Price-Based DED; 4.2.1 Price-Based DED Just Energy Market; 4.2.2 Price-Based DED Energy and Reserve Market; 4.3 Linearized Cost-Based DED; 4.4 Applications; Nomenclature; References; 5 Unit Commitment; 5.1 Cost-Based Unit Commitment; 5.1.1 Cost Calculation; 5.1.2 Ramp Rate Constraints; 5.1.3 Min Up/Down Time Constraints; 5.1.4 Demand-Generation Balance; 5.2 Cost-Based UC with Additional Constraints; 5.2.1 Cost-Based UC with Reserve Constraints
5.2.2 Cost-Based UC Considering Generator Contingency5.2.3 Cost-Based UC with Demand Flexibility Constraints; 5.3 Price-Based Unit Commitment; 5.4 Applications; 5.4.1 Cost-Based UC; 5.4.2 Price-Based UC; References; 6 Multi-Period Optimal Power Flow; 6.1 Single Period Optimal DC Power Flow ; 6.1.1 Three-Bus Network DC-OPF; 6.1.2 Five-Bus Network DC-OPF; 6.1.3 IEEE Reliability Test System 24 Bus; 6.1.3.1 IEEE-RTS: Base Case ; 6.1.3.2 IEEE-RTS: Branch Flow Limit Reduction; 6.1.3.3 IEEE-RTS: Branch Outage; 6.1.3.4 IEEE-RTS: Generator Outage; Nomenclature; 6.2 Multi-Period Optimal Wind-DC OPF