Keywords: T–1000 PEM fuel cells, EL 100 hydrogen generators, 3 kW wind turbines, 1 kW photovoltaic arrays, wind box interface, WBI, inverters, renewable energy, fossil fuels, microgeneration systems, wind energy, wind power, solar energy, solar power, Australia, carbon emissions, CO2 emissions, carbon dioxide, communications backup, power backup
An experimental investigation of a solar/wind 4 kW micro generation system and T–1000 1.2 kW PEM fuel cell
Hybrid system inclusive of renewable energy may be a key component for the solution of global warming, poor air quality, economic dependence, reducing–dwindling reserves of fossil fuels and also carbon tax in Australia. Firstly, this paper describes the experimental setup of wind/solar 4 kW micro generation system, examines the energy produced and various readings of monthly, weekly, daily and partially curves are recorded at regular intervals. The work shows notably the benefit of using wind/solar 4 kW micro generation system to reduce CO
2emissions by implementing in every independent home in Australia. Secondly, this paper focuses on the experiment conducted by 1.2 kW PEM fuel cell system designed for communications backup power applications under laboratory conditions at the Power Systems Research Laboratory in Victoria University. The work shows notably the benefit of using H
2and fuel cell system for the recent layout of National Broadband Network (NBN) in Australia proposed by the federal government ($43 billion project).