A novel technique for optimal siting and rating of shunt capacitors placed to the radial distribution systems

OM Neda - Advances in Electrical and Electronic Engineering, 2022 - advances.vsb.cz
Advances in Electrical and Electronic Engineering, 2022advances.vsb.cz
The overall efficacy of power distribution is reduced through power loss in distribution
systems owing to branch resistance. For providing quality power to customers, power losses
must be diminished, and voltages must be enhanced. This paper introduces a novel
improvement for the traditional Salps Swarm Algorithm (SSA) called Enhance SSA (ESSA)
for selecting Optimal Shunt Capacitor Ratings and their Locations (OSCRL). ESSA is viewed
as an enhanced version of SSA with the aim of improving the SSA's poor performance. A …
Abstract
The overall efficacy of power distribution is reduced through power loss in distribution systems owing to branch resistance. For providing quality power to customers, power losses must be diminished, and voltages must be enhanced. This paper introduces a novel improvement for the traditional Salps Swarm Algorithm (SSA) called Enhance SSA (ESSA) for selecting Optimal Shunt Capacitor Ratings and their Locations (OSCRL). ESSA is viewed as an enhanced version of SSA with the aim of improving the SSA's poor performance. A multi-objective function was designed in this work for reducing real power loss and Total System Cost (TSC), as well as, improving feeder voltage profile and maximizing Net Savings (NSs) per year under security restrictions. For validating and evaluating the proposed ESSA technique, a practical 33-bus local Iraqi and standard IEEE 69-bus Radial Distribution Systems (RDSs) were used as test systems through utilizing MATLAB. The experimental results attained by the proposed ESSA are compared with other approaches currently available in the literature for addressing OSCRL problem. The experimental results prove the efficacy and supremacy of the ESSA to other literature algorithms with respect to diminishing power loss as well as TSC, reinforce bus voltage profile and increase NSs per year for multiple RDSs.
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