This is a listing of the models available in the on-line model library (PSOPTLIB) based on the book Power System Optimization Modelling in GAMS by Alireza Soroudi. The library contains a selection of 32 models from various areas of power system optimization expressed in GAMS. Book and library describe how the General Algebraic Modeling System (GAMS) can be used to solve various power system operation and planning optimization problems. The book is the first of its kind to provide readers with a comprehensive reference that includes the solution codes for basic/advanced power system optimization problems in GAMS, a computationally efficient tool for analyzing optimization problems in power and energy systems. The book covers theoretical background as well as the application examples and test case studies. It is a suitable reference for dedicated and general audiences including power system professionals as well as researchers and developers from the energy sector and electrical power engineering community and will be helpful to undergraduate and graduate students.
| Name | Chapter | FigureNr | Description |
|---|---|---|---|
| SimpleLP | Simple Examples in GAMS | Gcode2.1 | Simple linear programming model |
| BoundaryLP | Simple Examples in GAMS | Gcode2.2 | Simple linear programming model for determination of boundary values of an objective function |
| SimpleMIP | Simple Examples in GAMS | Gcode2.3 | Simple Mixed Integer Linear Programming model |
| EmergencyCentreAllocation | Simple Examples in GAMS | Gcode2.5 | Mixed integer linear programming model for optimal allocation of Emergency Centres |
| TransportationOn-Off | Simple Examples in GAMS | Gcode2.12 | Transportation model with On/off state modeling of production side |
| ParetoOptimalFront | Simple Examples in GAMS | Gcode2.16 | Pareto optimal front determination |
| ED | Power Plant Dispatching | Gcode3.1 | Economic Load Dispatch |
| EDsensitivity | Power Plant Dispatching | Gcode3.2 | Sensitivity Analysis in Economic Load Dispatch |
| EnvironmentalED | Power Plant Dispatching | Gcode3.3 | Environmental Load Dispatch |
| MOED | Power Plant Dispatching | Gcode3.4 | Multi-objective Economic-Environmental Load Dispatch |
| DED | Dynamic Economic Dispatch | Gcode4.1 | Dynamic Economic Load Dispatch |
| RampSenDED | Dynamic Economic Dispatch | Gcode4.2 | Ramp rate sensitivity analysis for Dynamic Economic Load Dispatch |
| DED-wind | Dynamic Economic Dispatch | Gcode4.4 | Dynamic Economic Load Dispatch considering Wind generation |
| DED-PB | Dynamic Economic Dispatch | Gcode4.5 | Price based Dynamic Economic Load Dispatch |
| DED-LP | Dynamic Economic Dispatch | Gcode4.7 | Linearized Dynamic Economic Load Dispatch |
| UC | Unit commitment | Gcode5.1 | Unit commitment |
| PBUC | Unit commitment | Gcode5.5 | Price based Unit commitment |
| OPF2bus | Multi-Period Optimal Power Flow | Gcode6.1 | Optimal power flow for a simple two-bus system |
| OPF3bus | Multi-Period Optimal Power Flow | Gcode6.2 | Optimal power flow for a three-bus system |
| OPF5bus | Multi-Period Optimal Power Flow | Gcode6.3 | Optimal power flow for a Five-bus system |
| MultiperiodDCOPF24bus | Multi-Period Optimal Power Flow | Gcode6.6 | Multi-period DC-OPF for IEEE 24-bus network considering wind and load shedding |
| MultiperiodACOPF24bus | Multi-Period Optimal Power Flow | Gcode6.7 | Multi-period AC-OPF for IEEE 24-bus network considering wind and load shedding |
| DEDESS | Energy Storage Systems | Gcode7.1 | Cost based Dynamic Economic Dispatch integrated with Energy Storage |
| DEDESSwind | Energy Storage Systems | Gcode7.2 | Cost based Dynamic Economic Dispatch integrated with Energy Storage and Wind |
| ESSDCOPFwind | Energy Storage Systems | Gcode7.3 | DC-OPF integrated with Energy Storage and Wind |
| PMU | Power System Observability | Gcode8.1 | PMU allocation for IEEE 14 network without considering zero injection nodes |
| PMU-cost | Power System Observability | Gcode8.2 | Min Cost PMU allocation for IEEE 14 network without considering zero injection nodes |
| PMU-OBI | Power System Observability | Gcode8.4 | Maximizing the network observability using a limited number of PMU for IEEE 14 network without considering zero injection nodes |
| TEP | Topics in Transmission Operation Planning | Gcode9.1 | Transmission Expansion Planning |
| WaterEnergy | Energy System Integration | Gcode10.1 | Water-Energy Nexus |
| EnergyHub | Energy System Integration | Gcode10.3 | Optimal operation of energy hub |