Dr. süleyman demirel ünivercity, Turkey
Ahmet Elbir is a researcher and educator specializing in energy systems, thermal science, and environmental engineering. He holds a Ph.D. in Energy Systems from Süleyman Demirel University and has published numerous papers on energy efficiency, renewable energy, and sustainable technologies. His work focuses on developing innovative solutions for energy production, storage, and consumption.
Profile
orcid
Education 🎓
Ahmet Elbir received his Ph.D. in Energy Systems from Süleyman Demirel University in 2021. He completed his MSc in Mechanical Engineering at the same university in 2010. Elbir earned his BSc in Mechanical Engineering from Süleyman Demirel University in 2005.
Experience 💼
Ahmet Elbir has experience as a Research Assistant and Teaching Assistant at Süleyman Demirel University. He has also worked as a Project Coordinator and Researcher on various projects related to energy efficiency, renewable energy, and sustainable technologies.
Awards and Awards 🏆
Although not explicitly stated, Ahmet Elbir’s publications in reputable international journals and conferences demonstrate his expertise and recognition in the field of energy systems and thermal science.
Research Focus
Ahmet Elbir’s research focuses on energy systems, thermal science, and environmental engineering. His work explores innovative solutions for energy production, storage, and consumption, with an emphasis on renewable energy sources, energy efficiency, and sustainable technologies.
Publications 📚
1. Innovative Thermodynamic Integration: Kalina, ORC and Rankine Cycles to Obtain Sustainable Energy from Gas Turbine Waste Heat ️
2. Estimation of Energy and Exergy Efficiency of the Trilateral Cycle Using Machine Learning Algorithms
3. Sustainable Energy Production on Mars: Energy Analyses of Organic Rankine and Brayton Cycle
4. Thermodynamic Analysis of Supercritical Carbon Dioxide Cycle Using Waste Heat of V18 MAN 51/60DF Engine
5. Investigation of the Effects of Seasonal Temperatures on Ammonia-Water Absorption Heat Pumps for Isparta Province
6. Triple-Objective Optimization of Supercritical CO2 Recompression Brayton Cycle in Solar Tower Systems with Energy, Exergy and Exergoeconomic Analysis
7. Highly Efficient Energy Integration: Thermodynamic Analysis of Heat Recovered from SOFC Through S-CO2 And Kalina Cycles
8. Thermodynamics of Combustion and Environmental Impacts of Industrial Fuels: A Comparative Study
9. Energy And Exergy Analysis For A New Models With Gradual Expansion Combined With Multiple Power Generation Systems
10. Determining the Exergy and Energy Efficiency of an Organic Rankine Cycle Using Fuzzy Logic Method
11. Comparative Analysis of Kalina and ORC Cycles in Renewable Energy Systems: Exergo-Environmental Assessment and Cost Calculations with Carbon Emissions
12. Wool Drying Process in Heat-Pump-Assisted Dryer by Fuzzy Logic Modeling
13. Thermodynamic Analysis for Industrial Cabinet Providing Simultaneous Heating and Cooling That Can Be Used in the Food Industry
14. CO2 Soğutucu Akışkanı İle Çalışan Transktirik Bir Isı Pompası Sisteminin Farklı Basınçlarda Termodinamik Analizi
15. Bati Akdeniz Bolgesinde Toprak Kaynakli Isi Pompasi Sisteminin Evsel Uygulamalari ve Performans Analizi
16. Thermodynamic Analysis and Assessment of Space Heating with Ground Source Heat Pump for Sustainable Future
17. Ejektörlü Soğutma Sistemlerine
18. Thermodynamic Analysis of a Combined Gas Turbine ORC Using Some Organic Fluids
19. Experimental Analysis of a Transcritical Heat Pump System with CO2 Refrigerant
20. Thermodynamic Analysis of Refrigerants Used in ORC-VCC Combined Power Systems for Low Temperature Heat Sources
21. Thermodynamic Analysis for Industrial Cabinet Providing Simultaneous Heating and Cooling That Can Be Used in the Food Industry
22. Thermodynamic Analysis of a Novel Combined Supercritical CO2 and Organic Rankine Cycle
23. Examples of Usage Areas of 3D Printers in the Energy Sector
Conclusion
Ahmet Elbir’s impressive publication record, interdisciplinary research approach, and focus on sustainable energy solutions make him an exceptional candidate for the Best Researcher Award. While there are areas for improvement, his strengths demonstrate his dedication to advancing knowledge and contributing to the global effort towards sustainable energy.