Optimization of Scheduling and Thermal Generation Operations Using Firefly Algorithm

2020 IEEE International Conference on Sustainable Engineering and Creative Computing (ICSECC) Pub Date : 2020-12-16 DOI:10.1109/ICSECC51444.2020.9557532

W. Nugroho, Arif Nur Afandi, M. Hadi

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Abstract

Each operating generating unit has different input and output characteristics. To make the operation of the power system run optimally required scheduling of each operating power unit. The scheduling of power units on the power system is known as unit commitment. In carrying out the unit commitment process there are several things to be aware of, such as startup (hot and cold start), production cost, power generation range, and others. The study proposes a firefly algorithm method to complete the unit commitment scheduling process. The reliability of the firefly algorithm will be tested through 2 system tests, the first system uses 4 units of thermal generators with a time period of 8 hours and the second system uses 10 units of thermal generators with a time period of 24 hours. With firefly algorithm method, it is expected to solve the problem of scheduling unit commitment well and obtain operating costs from more efficient generating units. The results of the firefly algorithm simulation will be compared to other methods in the case of unit commitment.

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利用萤火虫算法优化调度和产热操作

每台发电机组都有不同的输入和输出特性。为了使电力系统的运行达到最佳状态，需要对各运行功率单元进行调度。发电机组在电力系统中的调度称为机组承诺。在执行机组承诺过程中，有几件事需要注意，如启动(热启动和冷启动)、生产成本、发电范围等。本研究提出一种萤火虫算法方法来完成机组承诺调度过程。萤火虫算法的可靠性将通过2个系统测试来测试，第一个系统使用4台火力发电机组，时间段为8小时，第二个系统使用10台火力发电机组，时间段为24小时。采用萤火虫算法方法，有望较好地解决机组承诺调度问题，并从更高效的发电机组中获取运行成本。在机组投入的情况下，将萤火虫算法的仿真结果与其他方法进行比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2020 IEEE International Conference on Sustainable Engineering and Creative Computing (ICSECC)

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