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Modified Opposition-based Particle swarm Optimization for Combined Economic and Emission Dispatch Problem

Publication Type : Journal Article

Source : Electric Power Components and Systems (Accepted), (2024)

Url : https://www.tandfonline.com/doi/full/10.1080/15325008.2024.2342010?src=

Campus : Amritapuri

School : School of Engineering

Department : Mechanical Engineering

Year : 2024

Abstract : Modification of the particle swarm optimization (PSO) method is proposed with an opposition-based learning strategy to find the optimal solution to electrical power dispatch problems. The objective of the proposed algorithm is to address the combined economic and emissions dispatch problem (CEED) of thermal power plants. This problem includes constraints such as the valve point effect, prohibited zones of operation, and ramp rate limits. In order to assess its performance, the proposed algorithm is first evaluated using a set of benchmark functions. Later, three thermal generating systems having 6, 10, and 40 units respectively are regarded as the test systems to validate the proposed method. The proposed method is tested, and a comparison of the results are made with popular optimization techniques reported in the literature such as PDE, MODE, NSGA II, and MOSSA. Promising results have been obtained with opposition-based PSO in comparison with their current equivalents. A comparison was made between the fuel cost, emissions, and CPU time of the proposed method with the two other PSO variants: inertia factor PSO (IFPSO) and constriction factor PSO (CFPSO). The results showed a decline in the overall cost by approximately 3.73% and a decrease in CPU time by as much as 2.6 s. Furthermore, the obtained predictions consistently exhibit a high level of accuracy, typically approaching 100%.

Cite this Research Publication : Swathy. M and C A Babu and S. Ajith Kumar , “Modified Opposition-based Particle swarm Optimization for Combined Economic and Emission Dispatch Problem”, Electric Power Components and Systems (Accepted), (2024)

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