Tukur Sani Gadanya scite author profile

Tukur Sani Gadanya

2Publications

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14Citation Statements Given

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Study on Walk-Through Energy Audit of a Faculty Building

Usman¹,

Gadanya²,

Iliyasu³

2023

FJS

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Nigeria has been facing energy crisis for several years to meet the growing energy needs. Therefore, for sustainable environment and to contribute towards carbon neutrality, it is very much crucial to introduce energy audit in every sector in order to cut the growing demand. As such, this paper focuses on walk-through energy audit of Faculty of Engineering building in Federal University Dutsin-Ma. Data was collated manually and “Microsoft Excel” tool was used to analyze the building’s energy consumption. Electrical systems in the building were partitioned in to 68% for Surface panel light, 19% for Fan, 8% for AC, 3% for Fridge, 1% for Computer, 0.2% for projector, and 0.4% for printer and TV respectively. The result obtained shows total connected electric load as 131254-watt, with 10480-watt for lighting, 3380-watt for electrical equipment and 117394-watt for cooling and ventilation systems. Moreover, average individual energy consumption per day was found to be 463-kWh for AC, 151-kWh for Fan, 73-kWh for lighting, 23-kWh for fridge, 0.3-kWh for printer, 0.4-kWh for projector, 0.7-kWh for TV, and 10-kWh for Computer. The result also revealed that lighting systems have the highest percentage on number of appliances, whilst cooling and ventilation parameters have the highest power consumption amongst other parameters. Therefore, energy conservation measures discussed for AC being the highest energy consuming appliance may result to optimistic energy saving. Furthermore, reliable environmental-friendly alternative energy source that is up to 131-kW can be use to power lighting, cooling & ventilation and electrical appliances of the Faculty building.

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Wind Power Generation in Sudano-Sahelian Region of Nigeria: a Review

Usman¹,

Gadanya²,

Iliyasu³

2022

PoS

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Over a couple of years, the world's energy demand has turned to renewable energy sources due to the menace of global warming, while some African countries still depend on fossil fuels despite their harmful effects. Out of approximately 4 trillion (kWh) of renewable energy that is expected to be generated by the year 2030, wind energy is projected to contribute up to 1.1 trillion (kWh). Wind energy studies will be the centre for future renewable engineering efforts, being one of the most likely economic and affordable alternate energy sources. Furthermore, wind resources analysis has also revealed that the Northern part of Nigeria, which occupies almost all the meteorological locations in the Sudano-Sahelian Ecological Zone, possesses enormous potential for harvesting wind energy. This paper involves a systematic review of relevant literature to identify the outcome of various initiatives of researchers at appraising the prospects of electricity production from wind for sustainable development in the region. It was established that the area is blessed with enormous opportunities for harnessing wind for various applications, having possible average wind speeds reaching as high as 8.70 m/s at 10 m above the ground. The region can adequately utilise wind for power generation if the fundamental challenges facing wind energy utilisation are addressed. There is a need to systematically model and simulate the system's feasibility before actual implementation to assist in other managerial and technical decisions. Wind energy integration will immensely contribute to providing lasting solutions to the energy situation in the region and the country at large.

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