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Kofi Owura Amoabeng

Mechanical Engineering

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About

Dr. Kofi Owura Amoabeng is a lecturer at the Department of Mechanical Engineering, KNUST. He received his PhD degree from Hanbat National University, South Korea, and his MSc and BSc degrees from the Kwame Nkrumah University of Science & Technology, Ghana. He is a certified sustainable energy management professional (SEMP). He has over ten years of post-BSc and four years of post-PhD experience as a mechanical engineer, energy auditor, and energy efficiency expect.He has been involved in several research and development (R&D) projects in energy efficiency management, heat pumps, refrigeration and air-conditioning systems, heat recovery technologies, renewable (solar) energy for crop drying, cooling applications, water pumping, food preservation, thermal energy storage, and power generation. Dr. Kofi Owura Amoabeng also worked in the Advanced Energy and Environmental laboratory in Hanbat National University. He contributed to multidisciplinary research projects on the design and analysis of novel technologies in heating, refrigeration and air conditioning systems. He attended conferences such as International Conference of Saving Energy in Refrigeration and Air-conditioning and the Asian-Pacific Forum on Renewable Energy to present his research works. He has made publications in reputable journals such as Mechanical Science and Technology, Applied Thermal Engineering, Energy and Built Environment, Energies, etc. He was a member of the Korean Society of Mechanical Engineers during his time as a PhD student in South Korea.In the area of research, his interests are energy efficiency demand side management and performance evaluation of buildings related to sustainable energy use, heat pump systems, renewable energy, heat recovery technologies as well as design of thermal energy systems.

Research Summary

(inferred from publications by AI)

The researcher's work is centered on advancing energy efficiency and comfort optimization through the development of innovative technologies across diverse domains. This includes enhancing indoor climate systems for improved thermal comfort, optimizing solar thermal and photovoltaic systems for enhanced energy efficiency and environmental impact reduction, investigating geothermal energy systems to maximize resource utilization, exploring heat pump applications in cavity testing facilities, evaluating cavity cooling systems for optimal performance, and addressing social issues through flood risk assessments. The research also emphasizes the role of engineering applied research in benchmarking performance evaluations, particularly in sustainable industrial processes such as oil palm production, solar egg incubators, and transportation infrastructure improvements like belt conveyors.

Research Themes

All Papers

Analysis of indoor set-point temperature of split-type ACs on thermal comfort and energy savings for office buildings in hot-humid climates(2022)
Fault detection model for a variable speed heat pump(2023)
Experimental investigation of thermal management techniques for improving the efficiencies and levelized cost of energy of solar PV modules(2022)
A study on the performance characteristics of a testing facility for a water-to-water heat pump(2017)
Assessing the impact of hydro energy project on poverty alleviation: The case of Bui Dam in Ghana(2022)
Comparing the Cost per Mile of Electric Vehicles and Internal Combustion Engine Vehicles in Ghana(2022)
Review on Cooling System Energy Consumption in Internet Data Centers(2016)
A study on the performance of a newly designed heat pump calorimeter(2017)
Performance Analysis on the Optimum Control of a Calorimeter with a Heat Recovery Unit for a Heat Pump(2018)
Efficient control of cascade heat pumps using variable speed compressors(2022)
Performance investigation of a novel calorimeter for a heat pump system according to flow loops(2020)
Modeling and Simulation Performance Evaluation of a Proposed Calorimeter for Testing a Heat Pump System(2019)
Investigating The Failure of Leaf Springs in Automobile Suspension on Ghana Road(2022)
공기조화기 성능 평가 장치에 관한 연구(2015)
CAPACITY CONTROL OF TWO-STAGE HEAT PUMP USING VARIABLE SPEED COMPRESSOR(2015)
The Effect of Utilizing a Heat Recovery System in a Heat Pump Calorimeter(2016)
An Energy Consumption Analysis of the Performance Test Facility for a Heat Pump(2016)
Improving the Energy Efficiency of HEat Pump Performance Evaluation System(2017)
Performance assessment of a solar powered egg incubator with a backup heater(2022)
Performance Analysis of a Mechanical System To Break and Separate Palm Nut-Fibre Cake(2022)
Assessment of Automobile Engines Rebuilt at Local Artisan Workshops in Ghana(2022)
An Assessment of the impacts of selected Meteorological and Land Use Land Cover Datasets on the accuracy of wind speeds downscaled with the Weather Research and Forecasting Model for coastal areas in Ghana(2024)

Collaboration Network

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About This Profile

This profile is generated from publicly available publication metadata and is intended for research discovery purposes. Themes, summaries, and trajectories are inferred computationally and may not capture the full scope of the lecturer's work. For authoritative information, please refer to the official KNUST profile.