Biobjective Optimal Reactive Power Flow Using Chemical Reaction Based Optimization

7 Pages Posted: 12 Jul 2017

See all articles by G.K. Moorthy

G.K. Moorthy

Annamalai University - Department of Electrical Engineering

R.K. Santhi

Annamalai University - Department of Electrical Engineering

Alamelu Nachiappan

Pondicherry Engineering College

Date Written: January 7, 2016

Abstract

The optimal reactive power flow (ORPF) helps to effectively utilize the existing reactive power source with a view to minimize the network loss and improve voltage profile. The chemical reaction optimization (CRO), inspired from the interactions of molecules in a chemical reaction to reach a low energy stable state and searches for optimal solution through reactions involving the on-wall ineffective collisions, decomposition, inter-molecular ineffective collision and synthesis. This paper attempts to develop a global best solution method that simultaneously minimizes the network loss and enhances the voltage profile for ORPF using CRO. The results of IEEE 30 bus system are presented to demonstrate its performance.

Keywords: Dynamic Economic Emission Dispatch, Dynamic Economic Dispatch, Predator Prey optimization Flower Pollination Algorithm

Suggested Citation

Moorthy, G.K. and Santhi, R.K. and Nachiappan, Alamelu, Biobjective Optimal Reactive Power Flow Using Chemical Reaction Based Optimization (January 7, 2016). Available at SSRN: https://ssrn.com/abstract=2791422 or http://dx.doi.org/10.2139/ssrn.2791422

G.K. Moorthy (Contact Author)

Annamalai University - Department of Electrical Engineering ( email )

Annamalai Nagar, 608002
India

R.K. Santhi

Annamalai University - Department of Electrical Engineering

Annamalai Nagar, 608002
India

Alamelu Nachiappan

Pondicherry Engineering College ( email )

Pondicherry
India

Here is the Coronavirus
related research on SSRN

Paper statistics

Downloads
5
Abstract Views
166
PlumX Metrics