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Combined Economic Emission Dispatch including Variable Energy Resources

Soudamini Behera1 * , Ajit Kumar Barisal2 , Sasmita Behera3 and Dilip Kumar Bagal1

1 Department of Electrical Engineering, Government College of Engineering, Kalahandi, Biju Patnaik University of Technology, Bhawanipatna, Odisha India

2 Department of Electrical Engineering, Odisha University of Technology and Research, Bhubaneswar, Odisha India

3 Department of Electrical Engineering, Veer Surendra Sai University of Technology, Burla, Sambalpur, Odisha India

Corresponding author Email: soudamini_behera@yahoo.co.in

DOI: http://dx.doi.org/10.12944/CWE.19.2.26

Sustainable energy solutions are becoming more and more necessary as the world's energy needs increase as a result of population expansion and industrialization. Using renewable energy sources has become essential to meeting these needs and reducing the negative effects on the environment. The increasing incorporation of renewable energy sources (RES) like wind and solar into microgrid systems poses a notable obstacle to attaining optimum power dispatch because of their intrinsic unpredictability. The combined economic emission dispatch (CEED) issue may become inefficient as a result of this fluctuation, especially in islanded microgrid systems. In particular, in areas with significant RES potential, resolving this problem is essential to improving the sustainability and dependability of the energy supply. In this work, the optimization of the CEED issue in an islanded microgrid system with wind, solar, and thermal energy sources is the main emphasis. By employing a weighted sum approach and a Butterfly Optimization Algorithm (BOA), the research aims to provide an efficient solution to the multi-objective CEED dilemma. The proposed method outperforms traditional optimization techniques, offering a more robust framework for integrating RES into microgrids. This research reveals a number of limitations that affect the effectiveness of energy dispatch systems, such as thermal unit ramp rates and operating restrictions. Subsequent investigations have to concentrate on delving deeper into these limitations and devising tactics to augment the flexibility of optimization algorithms such as the Butterfly Optimization Algorithm (BOA) approach.

Butterfly Optimization Algorithm (BOA); Combined Economic Emission Dispatch (CEED); Emission dispatch; Microgrids; Variable Energy Resources (VERs).

Copy the following to cite this article:

Behera S, Barisal A. K, Behera S, Bagal D. K. Combined Economic Emission Dispatch including Variable Energy Resources. Curr World Environ 2024;19(2). DOI:http://dx.doi.org/10.12944/CWE.19.2.26

Copy the following to cite this URL:

Behera S, Barisal A. K, Behera S, Bagal D. K. Combined Economic Emission Dispatch including Variable Energy Resources. Curr World Environ 2024;19(2).