About
Highly accomplished Lecturer and Researcher with a robust background in Mechanical and Sustainable Energy Engineering, dedicated to fostering academic excellence and driving impactful research. Expertly leverages mechanical software (ANSYS, CFD, SolidWorks) to advance renewable energy systems, including solar PV and hydro turbine design. Proven ability to mentor students and contribute to engineering advancements through innovative solutions and community initiatives.
Work
Debre Markos university
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Summary
Led academic instruction and research initiatives in mechanical and sustainable energy engineering, contributing to student development and engineering advancements.
Highlights
Delivered comprehensive instruction across 8+ core mechanical engineering courses, including Fluid Mechanics, Thermodynamics, and Engineering Drawing, to over 500 students annually.
Utilized and provided training on advanced mechanical engineering software, including ANSYS, CFD, and SolidWorks, to enhance student design and simulation capabilities.
Mentored and advised 20+ final-year mechanical engineering students annually on capstone projects, guiding successful completion of complex design and research initiatives.
Developed and conducted advanced training programs on solar PV system design and installation using industry-standard tools like PVsyst and Homer, upskilling students and professionals.
Led multiple community service engineering projects, including the design and manufacturing of wheelchairs for individuals with disabilities, directly improving local community well-being.
Initiated and developed sustainable engineering solutions such as a vertical agricultural hydroponic system and innovative shade structures, demonstrating practical application of mechanical principles.
Education
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Master of Science
MSc in Sustainable Energy Engineering
Grade: CGPA: 3.81/4.0
Courses
Master's Thesis: Design, Development, and Optimization of Small-scale Cross-flow Hydro Turbine
Thermodynamics, Fluid Mechanics, Heat transfer, Refrigeration and Air conditioning, Turbomachine, Hydrogen fuel, Solar Energy, Energy Storage, Wind Turbines, Hydropower, and Biogas
Publications
Experimental investigation of air velocity, water flow rate, and staging of cooling pad on the performance of direct evaporative coolers
Published by
Int. J. Air-Cond. Ref.
Summary
Co-authored research on optimizing direct evaporative cooler performance through air velocity, water flow rate, and cooling pad staging.
Languages
English
Amharic
Skills
Mechanical Engineering
Fluid Mechanics, Dynamics, Refrigeration, Thermodynamics, Engineering Drawing, Heat Transfer, Hydro Turbine Design.
Sustainable Energy Systems
Solar PV Design, Hydropower, Wind Turbines, Biogas Systems, Hydrogen Combustion, Battery Storage.
Engineering Software & Tools
ANSYS, CFD (Computational Fluid Dynamics), SolidWorks, PVsyst, Homer.
Research & Development
Experimental Investigation, Data Analysis, Scientific Writing, Problem Solving, Optimization Techniques, Academic Research.
Academic & Mentorship
Curriculum Development, Student Advising, Course Instruction, Technical Training, Mentorship.
Community Engagement & Project Leadership
Community Project Management, Sustainable Solutions Development, Social Impact Initiatives.
Frontend Engineering
HTML, CSS, JavaScript.