Journal of Electrical Engineering and Electronic TechnologyISSN: 2325-9833

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Research Article, J Electr Eng Electron Technol Vol: 6 Issue: 4

Static Voltage Stability Margin Maximization and Real Power Loss Minimization by Chemical Reaction Based Optimization Algorithm

Lenin K*

Department of EEE, Prasad V Potluri Siddhartha Institute of Technology, Kanuru, Vijayawada-520007, Andhra Pradesh, India

*Corresponding Author : Dr. Lenin K
Professor, Department of EEE, Prasad V. Potluri Siddhartha Institute of Technology, Kanuru, Vijayawada-520007, Andhra Pradesh, India
Tel: + 91-9080574470
E-mail:
gklenin@gmail.com

Received: September 20, 2017 Accepted: October 26, 2017 Published: November 02, 2017

Citation: Lenin K (2017) Static Voltage Stability Margin Maximization and Real Power Loss Minimization by Chemical Reaction Based Optimization Algorithm. J Electr Eng Electron Technol 6:4. doi: 10.4172/2325-9833.1000150

Abstract

In this paper Chemical Reaction Optimization (CO) algorithm is proposed to solve the optimal reactive power dispatch Problem. To solve reactive power problem algorithm can regulate molecular structure and energy management. And it leads to strong flexibility of the algorithm. Candidate solution for a specific problem is encoded as a molecule in Chemical Reaction Optimization (CO) algorithm. Molecular structure (φ), potential energy (PY), kinetic energy (KY) are some several essential properties possessed by the Chemical Reaction Optimization (CO) algorithm. Reactants inclined to be stable product with minimum potential energy (PY) in the CO algorithm. System attains the minimum potential energy (PY) in the progression of the Chemical Reaction Optimization (CO) algorithm. In order to evaluate the efficiency of the proposed Chemical Reaction Optimization (CO) algorithm, it has been tested on standard IEEE 30 bus system and compared other standard algorithms. Results show’s that Chemical Reaction Optimization (CO) algorithm is more efficient in reducing the real power loss and static voltage stability index also Enhanced.

Keywords: Optimal reactive power; Transmission loss; Chemical Reaction; Optimization

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