Explore the programs and courses offered by Mechanical Energy
Browse Programs Admission InformationThe Master’s Degree in Mechanical Energy Engineering focuses on the study, design, and optimization of energy systems involving mechanical processes. This program provides expertise in thermodynamics, fluid mechanics, heat transfer, energy conversion, and sustainable energy technologies. Graduates can pursue careers in power generation, renewable energy, HVAC, automotive industries, aerospace, and energy efficiency consulting.
✅ Master mechanical energy systems, thermodynamics, and heat transfer.
✅ Develop expertise in fluid mechanics, aerodynamics, and energy storage.
✅ Design and optimize thermal, mechanical, and hybrid energy systems.
✅ Implement renewable energy technologies, energy efficiency, and sustainability.
✅ Gain hands-on experience with CFD simulations, thermal system modeling, and industrial applications.
🔹 Advanced Thermodynamics – Energy conservation, entropy analysis, and exergy calculations.
🔹 Fluid Mechanics and Aerodynamics – Computational fluid dynamics (CFD) and turbulence modeling.
🔹 Heat and Mass Transfer – Conduction, convection, radiation, and phase change processes.
🔹 Energy Conversion Systems – Internal combustion engines, turbines, and fuel cells.
🔹 Renewable Energy Technologies – Solar thermal, wind, biomass, and geothermal energy.
🔹 HVAC and Refrigeration Engineering – Heating, ventilation, air conditioning, and refrigeration cycles.
🔹 Materials for Energy Applications – Thermal-resistant materials, composites, and nanotechnology.
🔹 Mathematical and Computational Methods – Numerical analysis and engineering simulations.
🔹 Computational Fluid Dynamics (CFD) for Energy Applications – Simulation of thermal and fluid systems.
🔹 Advanced Power Generation Technologies – Nuclear, hydro, gas turbines, and combined-cycle plants.
🔹 Energy Storage and Hybrid Systems – Batteries, supercapacitors, and hydrogen storage.
🔹 Smart Energy Systems and IoT – AI-driven energy management, digital twins, and smart grids.
🔹 Advanced HVAC and Building Energy Optimization – Sustainable cooling and heating technologies.
🔹 Aerodynamics and Propulsion Systems – Wind energy, jet propulsion, and turbo machinery.
🔹 Industrial Energy Efficiency – Waste heat recovery, cogeneration, and process optimization.
🔹 Environmental Impact and Sustainable Energy – Carbon footprint analysis and emissions reduction.
1- Holder of a Bachelor's Degree in mechanical Engineering or equivalent.
2- Based on available teaching
positions.
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