Abstract
Optimal load dispatching is an important challenge for modern electric and computational engineering. Considering different linear and nonlinear constraints optimal load analysis is done to predict the utility and operating duration of the different power stations. This paper reports the optimal loading analysis method using the Brute Force method with and without considering the penalty factor of power line loss. In this work, two different algorithms are discussed with their mathematical explanation and analyzing feasibility. The algorithms are designed and analyzed in Matlab 2018a. Several conditions are examined by the proposed algorithms and the yields are explained with numerical and graphical presentation. The results prove the effectiveness of the proposed algorithms. Furthermore, the pros and cons of the proposed methods are also discussed in this work.
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References
Bhadoria A, Marwaha S, Kamboj VK (2020) An optimum forceful generation scheduling and unit commitment of thermal power system using sine cosine algorithm. Neural Comput Appl 32:2785–2814
Nguyen TT, Nguyen C-T, Dai LV, Quynh NV (2019) Finding optimal load dispatch solutions by using a proposed cuckoo search algorithm. Math Probl Eng 2019(1564693):1–30
Hansen P (2002) A separable approximation dynamic programming algorithm for economic dispatch with transmission losses. Yugoslav J Oper Res 12(2):1–10
Thang NT (2011) Solving economic dispatch problem with piecewise quadratic cost functions using lagrange multiplier theory. In: Proceedings of the 3rd international conference on computer technology and development, (ICCTD 2011), pp 359–364
Mishra SK, Mishra SK (2015) A comparative study of solution of economic load dispatch problem in power systems in the environmental perspective. Procedia Comput Sci 48:96–100
Al-Subhi AA, Alfares HK (2016) Economic load dispatch using linear programming: a comparative study. Int J Appl Ind Eng 3(1):16–36
Zhao N, Roberts C, Hillmansen S (2012) The application of an enhanced brute force algorithm to minimise energy costs and train delays for differing railway train control systems. J Rail Rapid Transit 228(2):158–168
Goeritno A (2020) Implementation of the coordination equation for determining the transport-related losses in economic dispatch phenomena. Math Model Eng Probl 7(2):293–298
Kothari DP, Nagrath IJ (2011) Modern power system analysis, 4th edn. Tata McGraw Hill Education Private Limited, New York
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Alam, M.K., Sulaiman, M.H. (2022). Optimal Loading Analysis with Penalty Factors for Generators Using Brute Force Method. In: Md. Zain, Z., Sulaiman, M.H., Mohamed, A.I., Bakar, M.S., Ramli, M.S. (eds) Proceedings of the 6th International Conference on Electrical, Control and Computer Engineering. Lecture Notes in Electrical Engineering, vol 842. Springer, Singapore. https://doi.org/10.1007/978-981-16-8690-0_4
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DOI: https://doi.org/10.1007/978-981-16-8690-0_4
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