SFLA approach to solve PBUC problem with emission limitation

“…Eq. (9) shows that the sum of the generation and the spinning reserve lies within the range of the minimum and the maximum generation capacities, and is zero when the unit stops. Eqs.…”

“…This part has six systems to test the MIQP and MILP algorithms of the Self-Scheduling (SS) problem, including the 10-generator unit 24-hour system, 20-generator unit 24-hour system, 40-generator unit 24-hour system, 60-generator unit 24-hour system, 80-generator unit 24-hour system, and 100-generator unit 24-hour system. In addition, the MILP algorithm is compared with the shuffled frog leaping algorithm (SFLA) by Venkatesan and Sanavullah [9]. (2) The second part examines the effects of the introduction of the carbon tax on the emissions, profit and output of the GENCO in two cases by simulating a 10-generation unit 24-hour system.…”

“…In order to perform a simulation on the same conditions in Venkatesan and Sanavullah [9], the system total reserve was assumed to be 10% of the system total load, namely S t R ¼ 10%P t D . The linear parameters were L ¼ 6 and N Di ¼ 10.…”

“…To check the robustness of this method, Table 3 compares the results between the MILP algorithm and the SFLA algorithm presented by Venkatesan and Sanavullah [9]. For comparison purposes, the price in Venkatesan and Sanavullah [9] is employed, in unit of Rs/MWh.…”

“…By introducing weighting factors, other studies report [8] weighted GENCO's profits, Contents lists available at ScienceDirect journal homepage: www.elsevier.com/locate/caor generation costs, and emissions in order to establish a selfscheduling model. Last but not least [9], a multi-objective GENCO self-scheduling has been proposed by simultaneously applying the generating profit and pollution emissions as objective functions.…”

Self-scheduling of a power generating company: Carbon tax considerations

“…Eq. (9) shows that the sum of the generation and the spinning reserve lies within the range of the minimum and the maximum generation capacities, and is zero when the unit stops. Eqs.…”

“…This part has six systems to test the MIQP and MILP algorithms of the Self-Scheduling (SS) problem, including the 10-generator unit 24-hour system, 20-generator unit 24-hour system, 40-generator unit 24-hour system, 60-generator unit 24-hour system, 80-generator unit 24-hour system, and 100-generator unit 24-hour system. In addition, the MILP algorithm is compared with the shuffled frog leaping algorithm (SFLA) by Venkatesan and Sanavullah [9]. (2) The second part examines the effects of the introduction of the carbon tax on the emissions, profit and output of the GENCO in two cases by simulating a 10-generation unit 24-hour system.…”

“…In order to perform a simulation on the same conditions in Venkatesan and Sanavullah [9], the system total reserve was assumed to be 10% of the system total load, namely S t R ¼ 10%P t D . The linear parameters were L ¼ 6 and N Di ¼ 10.…”

“…To check the robustness of this method, Table 3 compares the results between the MILP algorithm and the SFLA algorithm presented by Venkatesan and Sanavullah [9]. For comparison purposes, the price in Venkatesan and Sanavullah [9] is employed, in unit of Rs/MWh.…”

“…By introducing weighting factors, other studies report [8] weighted GENCO's profits, Contents lists available at ScienceDirect journal homepage: www.elsevier.com/locate/caor generation costs, and emissions in order to establish a selfscheduling model. Last but not least [9], a multi-objective GENCO self-scheduling has been proposed by simultaneously applying the generating profit and pollution emissions as objective functions.…”

Self-scheduling of a power generating company: Carbon tax considerations

Modified hybrid forecast model considering chaotic residual errors for dam deformation

Modified Genetic Algorithm for the Profit-Based Unit Commitment Problem