Smart Hybrid Power Consumption System for Green Future Energy: Cost and Social Benefits Analysis
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Date
2022-07
Journal Title
Journal ISSN
Volume Title
Publisher
Department of Electrical and Electronic Engineering
Abstract
The purpose of this thesis is to lead smart power grid system towards focusing on green future
energy. The research world is always looking for mobility and different innovative work types
for making human life more upgraded and easier. Due to coping with the ongoing modern
world, the energy demand also increases dramatically over the years. Consequently, to meet
that energy demand and bring sustainability over the grid system research world is diverting
towards renewable energy more and sustainable energy. Various countries of the world have
come forward in the age of smart grid and acknowledge its verity. Several are working on smart
grid pilot project or taking persuasive of this concept for experimenting and research with the
purpose of testing probabilities before on full scale advancement and change. To lessen carbon
emission and energy security, government of various countries all over the world are already
seeing possibilities like smart grid. Reviewing the scenario of smart grid system for all over
the world, Asian region and for Bangladesh, the purpose of this thesis is to design a hybrid
power system with PV and conventional power plant for leading the smart grid system towards
focusing on green future energy. The further explanation is about the designed model by
MATLAB Simulink approaching to smart grid development. In addition, the comprehensive
analysis of power consumption for about 30 years, CO2 emission calculation only for
conventional power system, PV system implementation cost, CO2 emission comparison with
and without the proposed system, CO2 reduction rate analysis and social benefit, consumer
benefit for about 30 years after combining the PV system with conventional power system.
Finally, the paper concludes with the suggestions of environment impact analysis as well as
green future energy.
Description
submitted by Kamrun Nahar Nupur, bearing
Matric ID. ET171217 and Sumaita Binte Salim, bearing Matric ID. ET171212 of session
Spring 2021,
Keywords
Smart Grid, PV system, Conventional power system, Hybrid power system, CO2 emission,, CO2 reduction, Power Consumptio, Social benefit, Consumer benefit, Green future energy.