Short-Term Hydro-Thermal-Solar Scheduling with CCGT Based on Self-Adaptive Genetic Algorithm

Short-Term Hydro-Thermal-Solar Scheduling with CCGT Based on Self-Adaptive Genetic Algorithm

This paper presents a new metaheuristic approach based on a self-adaptive genetic algorithm (SAGA) for solving the short-term hydro-thermal-solar scheduling with combined-cycle (CCGT) units. First of all, the proposed approach is applied to a test system with different characteristics, considering t...

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Veröffentlicht in:Energies (Basel) 2022-08, Vol.15 (16), p.5989
Hauptverfasser: Postolov, Borche, Hinov, Nikolay, Iliev, Atanas, Dimitrov, Dimitar
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive algorithms
Algorithms
Alternative energy sources
Combined cycle
Comparative analysis
Electricity distribution
Energy resources
Gas turbines
Gases
genetic algorithm
Genetic algorithms
Heat
hydrothermal scheduling
Laplace crossover
MPTM mutation
Mutation
Operating costs
Optimization
Power plants
Renewable resources
self-adaptive penalty
Solar energy
Strategic planning
Testing equipment
Turbines
User interface
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Zusammenfassung:This paper presents a new metaheuristic approach based on a self-adaptive genetic algorithm (SAGA) for solving the short-term hydro-thermal-solar scheduling with combined-cycle (CCGT) units. First of all, the proposed approach is applied to a test system with different characteristics, considering the valve-point effect. The simulation results obtained from the new SAGA are compared with the results obtained from some other metaheuristic methods, such as AIS, DE, and EP to reveal the validity and verify the feasibility of the proposed approach. The test results show that the proposed metaheuristic approach proves the effectiveness and superiority of the SAGA algorithm for solving the short-term hydro-thermal-solar scheduling (SHTSS) problem.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15165989