OPTIMAL ENERGY MANAGEMENT OF RENEWABLE MICRO-GRIDS FOR SMART POWER SYSTEMS

    This project deals with optimal power management of a grid-connected micro-grid for smart power systems consisting of Solar PV, Wind Turbine, Battery and Electric vehicle. The objective functions are to (i) minimize operational costs emission cost, and reliability cost of MG (ii) maximize the energy trading profit with the main grid.
The input data considered as below,

  • Low load-16.1 kWh
  • Average load-28 kWh
  • High load-64.7 kWh.

The three-optimization method GA, PSO and Hybrid are designed using Matlab and evaluated the performance.
Reference Paper-1: Optimization and Energy Management in Smart Home Considering Photovoltaic, Wind, and Battery Storage System With Integration of Electric Vehicles
Author’s Name: Fady Y. Melhem, Olivier Grunder, Zakaria Hammoudan, and Nazih Moubayed,
Source: CANADIAN JOURNAL OF ELECTRICAL AND COMPUTER ENGINEERING
Year:2017
Reference Paper-2: Considering Uncertainty in the Optimal Energy Management of Renewable Micro-Grids Including Storage Devices
Author’s Name: Aliasghar Baziar, and Abdollah Kavousi-Fard
Source:
Elsevier
Year:2013
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