Optimal Power Flow using Dynamic Bacterial Forging Algorithm
Hema Sharma1, Ilyas2, Suryakant3
1Hema Sharma, Department of Electrical & Electronics, Al-Falh School of Engineering & Technology, India.
2Mohd. Ilya, Assistant Professor, Department of Electrical & Electronics, Al-Falh School of Engineering & Technology, India.
3Suryakant, Assistant Professor, Department of Electrical & Electronics, HMRITM, (Delhi), India.
Manuscript received on 11 June 2013 | Revised Manuscript received on 17 June 2013 | Manuscript Published on 30 June 2013 | PP: 131-135 | Volume-3 Issue-1, June 2013 | Retrieval Number: A0910063113/13©BEIESP
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© The Authors. Blue Eyes Intelligence Engineering and Sciences Publication (BEIESP). This is an open access article under the CC-BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)

Abstract: Optimal power flow (OPF) problem has already been attempted as a static optimization problem, by adopting conventional gradient-based methods and more recently, no conventional ones, such as evolutionary algorithms. However, as the loads, generation capacities and network connections in a power system are always in a changing status, these staticoriented methods are of limited use for this issue. This paper presents a new algorithm, dynamic bacterial foraging algorithm (DBFA), for solving an OPF problem in a dynamic environment in which system loads are changing. DBFA is based on the recently proposed BFA which mimics the basic foraging behaviour of E. coli bacteria. A selection scheme for bacteria’s reproduction is employed in DBFA, which explores the self-adaptability of each bacterium in the group searching activities. DBFA has been evaluated, for optimizing the power system fuel cost with the OPF embedded, on the standard IEEE 30-bus with a range of load changes which occurred in different probabilities. The simulation results show that DBFA can more rapidly adapt to load changes, and more closely trace the global optimum of the system fuel cost, in comparison with BFA and some other techniques.
Keywords: Bacterial Foraging Algorithm (BFA), Optimal Power Flow, Dynamic Bacterial Foraging Algorithm.
Scope of the Article: Web Algorithms

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