Abstract:
The purpose of this study is to design a renewable energy hydrogen based power system to provide
electricity to a coastal residential area in east coast area (Kuala Terengganu) of Malaysia. The selected case
study represents a power demand of 20 kWh/day. The autonomous system used in this study is diesel generator,
wind and photovoltaic hybrid system. The power system was redesigned and optimized as hydrogen-based
autonomous power systems in order to meet the existing user’s power demand at a minimum cost of energy.
Wind speed and solar radiations data obtained from Malaysian Meteorological Department have been used in
the simulation process through optimization software, Hybrid Optimization Model for Electric Renewables
(HOMER). Three systems that were considered in this study area are stand alone PV-wind-diesel, stand alone
PV-wind-hydrogen and grid connected PV-wind-hydrogen energy system. The proposed systems then were
compared regarding on their operational characteristics and cost values. The comparisons prove that grid
connected PV-wind-hydrogen energy system had the lowest total net present cost and cost of energy, $53,197
and $0.57/kWh, respectively that makes it the most cost effective system, and followed by PV-wind-diesel and
stand alone PV-wind-hydrogen system.
