A NOVEL OPTIMAL POWER FLOW SOLUTION FOR HYBRID RENEWABLE ENERGY GENERATION BASED AC/DC GRID SYSTEM

Authors

Koustuv Das, Raju Basak, Debabrata Roy,
Department of Electrical Engineering,, Techno International Batanagar, West Bengal, India.
Maitrayee Chakrabarty, Department of Electrical Engineering,
JIS College of Engineering, Kalyani, India.

Abstract

A new Hybrid Krill herd and bat based Adaboosting Model (HKHBAM) optimization has been proposed for a better power transfer through AC/DC grid to attain Optimized power Flow (OPF). The proposed OPF problematic grips numerous impartial purposes that replicate multi dimensions financial mechanical and ecological action necessities of current power systems. Better co-ordination of the AC/DC grid and maximum power transfer are the two main objectives considered. These objectives are controlled separately and simultaneously to provide the preference competence to the operator purposes. A better co- ordination of AC/DC grid will provide a better utilization for the power generated by means of renewable energy generation units. Proposed technique impressionists the lively and evenness conditions linked to the mass equilibrium replicas in the sake of attainment the last best fitness. Lastly, case studies are accepted out through the advanced HKHBAM technique for the adapted IEEE 14 and 30-bus test systems. Also, adding renewable components and their influences on the OPF explanation is measured for the hybrid AC/DC grid. The implementation of this work has been done on MATLAB. The simulation consequences validate the great efficiency of the established method in answering the OPF in hybrid power systems. Better performance can be achieved by implementing HKHBAM in terms of transmission efficiency, power controllability and grid synchronization.