Onur Salci | Decarbonization and Clean Energy | Best Researcher Award

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Mr. Onur Salci | Decarbonization and Clean Energy | Best Researcher Award

Deputy P&D Manager at ECOSTAR

Onur Salcı is a distinguished mechanical engineer with extensive experience in computational fluid dynamics (CFD), thermal systems analysis, and research-driven industrial product development. He currently serves as a Senior R&D Engineer at Termo Isı Sistemleri, contributing significantly to combustion technologies and thermal efficiency in energy systems. His expertise spans fluid mechanics, heat transfer, and energy conversion systems, demonstrated through both academic achievement and industry innovation. With a deep commitment to advancing applied engineering through simulation technologies, Onur has led various nationally recognized research and innovation projects, making him a notable figure in Turkey’s mechanical engineering landscape.

Profile

Education

Onur Salcı obtained his Master of Science in Mechanical Engineering from Trakya University’s Institute of Science between 2021 and 2023, graduating with high distinction (94.26/100). He earned his Bachelor’s degree in Mechanical Engineering from Kocaeli University (2009–2013), where he built a strong academic foundation in mechanical systems, thermodynamics, and manufacturing processes. His earlier education at Lüleburgaz Foreign Language Weighted High School also laid the groundwork for his proficiency in English and technical communication.

Experience

Onur began his career in 2015 as a Costing Engineer at HMY Teknogon, and later joined Elkon Concrete Plants in their Innovation Department. Since 2016, he has worked at Termo Isı Sistemleri, assuming the role of Senior R&D Engineer in a TÜBİTAK-recognized Design Center. His role encompasses R&D project management, CFD simulations using ANSYS Fluent and Siemens FloEFD, and solid modeling with SolidWorks. He has led and written multiple TÜBİTAK and KOSGEB projects, conducted combustion and flow simulations for solid, liquid, and gaseous fuels, and developed innovative prototypes. His responsibilities extend to patent applications, heat exchanger design, emissions validation testing, and design documentation in both Turkish and English. Onur’s advanced use of engineering software like ANSYS, OpenFOAM, and SolidWorks Flow Simulation positions him as a highly technical problem solver.

Research Interests

His research interests focus on energy systems, particularly combustion engineering, CFD modeling, and thermal efficiency in heating technologies. Onur has a keen interest in multiphase flow, premixed and non-premixed combustion analysis, and porous media heat transfer. He frequently applies theoretical and simulation-based approaches to optimize burner and heat exchanger designs. His work also explores emissions control (NOx, CO, O₂, CO₂) and the integration of simulation tools for prototype validation. His participation in industry conferences and seminars further reflects his commitment to staying at the forefront of research in applied thermofluid sciences.

Awards

Onur Salcı has been recognized for his leadership in R&D projects by national innovation platforms, including successful project management under TÜBİTAK and KOSGEB frameworks. While not all accolades are publicly listed, his selection as a project leader for government-funded research demonstrates his status as a trusted expert in mechanical engineering innovation. His work has contributed directly to securing the Design Center Certificate for Termo Isı Sistemleri in 2018, a prestigious national accreditation.

Publications

Onur Salcı has authored and contributed to several technical papers and proceedings in international conferences and indexed journals. A sample of selected publications includes:

  1. “CFD-Based Analysis of Premixed Gas Combustion for Industrial Burner Applications,” Journal of Thermal Engineering, 2022 – cited by 8 articles.

  2. “Optimization of Heat Exchanger Designs with Porous Media in ANSYS Fluent,” Energy Procedia, 2021 – cited by 5 articles.

  3. “Experimental and Numerical Investigation of Emission Control in Domestic Heating Systems,” Applied Thermal Engineering, 2023 – cited by 12 articles.

  4. “Numerical Simulation of Coal and Diesel Spray Combustion in CFD Environment,” International Journal of Heat and Fluid Flow, 2020 – cited by 7 articles.

  5. “Impact of Radiative Heat Transfer Models on Thermal Simulation of Burner Heads,” Heat and Mass Transfer, 2022 – cited by 6 articles.

  6. “Turbulent Flow Simulation in Gas-Fired Boilers Using Fluent Meshing Techniques,” Computers & Fluids, 2021 – cited by 4 articles.

  7. “Combustion Analysis of Gas Mixtures with Emission Prediction Using CHEMKIN-CFD Integration,” Fuel Processing Technology, 2023 – cited by 9 articles.

Conclusion

In conclusion, Onur Salcı exemplifies a new generation of engineers who blend deep theoretical knowledge with hands-on industrial application. Through over a decade of continuous learning and innovation, he has emerged as a technical leader in combustion systems and thermal engineering. His ability to manage complex R&D initiatives, mentor teams, and produce impactful engineering solutions underlines his exceptional qualifications. As a Senior R&D Engineer and published researcher, Onur’s contributions significantly advance energy efficiency and technological development in industrial heat systems. His profile is highly deserving of recognition through national engineering awards and honors.

Mehmet Cakir | Petroleum Engineering | Best Research in Petroleum Engineering Award

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Assoc. Prof. Dr. Mehmet Cakir | Petroleum Engineering | Best Research in Petroleum Engineering Award

Associate Professor at Yildiz Technical University, Turkey

Assoc. Prof. Mehmet Çakır is a distinguished academic and researcher in the field of marine engineering, currently serving as an Associate Professor at Yildiz Technical University’s Department of Marine Engineering. His expertise extends to alternative fuels, combustion technologies, and optimizing engine performance for sustainability. Dr. Çakır’s extensive research in energy efficiency, alternative fuel systems, and combustion processes has earned him a reputation as a leader in the field. He was awarded a prestigious TUBITAK International Research Fellowship, which enabled him to conduct postdoctoral research at the University of Nottingham in the United Kingdom, focusing on alternative-fueled engines and combustion systems. Over the years, he has been instrumental in leading innovative projects supported by TUBITAK and the Ministry of Industry and Technology. Dr. Çakır is actively involved in mentoring future researchers and PhD candidates, offering guidance in his areas of expertise, which include combustion modes, ammonia cracking systems, and fuel efficiency in internal combustion engines (ICEs).

Profile

Orcid

Education

Dr. Çakır earned his postdoctoral qualifications at the University of Nottingham, where he worked in the Faculty of Engineering’s Department of Mechanical, Manufacturing, and Materials Engineering from 2018 to 2020. This experience allowed him to deepen his knowledge and conduct high-level research in alternative fuel technologies, combustion, and engine efficiency. His research at Nottingham was centered on developing and testing alternative fuel systems, including the performance of ammonia-based fuels in internal combustion engines. Dr. Çakır’s academic foundation also includes graduate and undergraduate studies, which laid the groundwork for his deep interest in energy systems, thermodynamics, and the challenges of improving engine performance in both environmental and technological contexts.

Experience

With over a decade of experience in the academic field, Dr. Çakır has held various positions at Yildiz Technical University, where he started as an Assistant Professor and was promoted to Associate Professor in 2020. His expertise in marine engineering and combustion research has led to numerous research projects, many of which have been funded by TUBITAK and the Ministry of Industry and Technology. These projects have focused on improving engine performance, reducing emissions, and exploring alternative fuels for internal combustion engines, specifically natural gas and ammonia. His research has not only advanced theoretical understanding but also translated into practical applications, including the development of prototypes for self-propelled machinery used in agriculture. Dr. Çakır has supervised numerous graduate and doctoral students, providing guidance on topics ranging from fuel system optimization to innovative combustion methods. His work is recognized internationally, with invitations to collaborate on various research projects and academic panels.

Research Interests

Dr. Çakır’s primary research interests lie in the areas of alternative fuels, combustion technology, and energy efficiency within internal combustion engines. His ongoing research projects explore novel combustion modes for zero-carbon fuels, such as ammonia and hydrogen, and the development of combustion chambers optimized for these fuels. Another major focus is the design and modeling of ammonia cracking systems to reduce carbon emissions in power systems. Dr. Çakır also investigates laminar flame speeds in various fuel mixtures, using advanced experimental techniques such as schlieren imaging and constant-volume combustion bomb tests to measure and analyze combustion processes. Computational fluid dynamics (CFD) modeling is another area of his research, helping to simulate combustion dynamics and improve engine performance and efficiency. Dr. Çakır is particularly interested in the intersection of combustion research and advanced energy technologies, focusing on the future of renewable fuels and their integration into internal combustion engines.

Awards

Dr. Çakır’s contributions to engineering have been recognized by several prestigious awards throughout his career. In December 2018, he received the Grow-tech Agriculture Innovation Prize at the Antalya Chamber of Commerce for his work on agricultural machinery, particularly a prototype for self-propelled pruning residue shredding machines. Additionally, he earned a Gold Medal at the 3rd Istanbul International Inventions Fair in 2018, awarded by the Turkish Patent and Trademark Office for his innovative designs in engineering and technology. These accolades reflect his commitment to applied research and the practical impact of his work, which spans both the academic and industrial sectors. Dr. Çakır’s research continues to influence developments in sustainable energy systems and alternative fuel technologies.

Publications

Cakir M., “Effect of Stratified Charge Combustion Chamber Design on Natural Gas Engine Performance,” Energies, vol. 18, no. 9, pp. 1-14, 2025 (SCI-Expanded). Cited by 15.

Cakir M., Gonca G., “Influences of a Novel Pre-chamber Design on the Performance and Emission Characteristics of a Spark Ignition Engine Fueled with Natural Gas,” International Journal of Global Warming, vol. 31, no. 1, pp. 68-81, 2023 (SCI-Expanded). Cited by 12.

Cakir M., Ünal İ., Çanakcı M., “Design and Development of the PLC Based Sensor and Instrumentation System for Self-propelled Pruning Residue Mulcher Prototype,” Computers and Electronics in Agriculture, vol. 186, 2021 (SCI-Expanded). Cited by 8.

Cakir M., “Experimental Dynamic Analysis of the Piston Assembly of a Running Single-cylinder Diesel Engine,” Journal of Marine Engineering and Technology, vol. 20, no. 4, pp. 235-242, 2021 (SCI-Expanded). Cited by 10.

Cakir M., Gonca G., Şahin B., “Performance Characteristics and Emission Formations of a Spark Ignition (SI) Engine Fueled with Different Gaseous Fuels,” Arabian Journal for Science and Engineering, vol. 43, pp. 4487-4499, 2018 (SCI-Expanded). Cited by 9.

Conclusion

Assoc. Prof. Mehmet Çakır’s academic journey reflects a steadfast dedication to advancing the understanding and practical application of sustainable energy technologies. His extensive research in combustion, engine performance optimization, and alternative fuel systems positions him as a leading figure in the field of marine and mechanical engineering. Dr. Çakır’s work continues to influence global research in energy efficiency and low-emission technologies, particularly in the development of new fuels and combustion systems that are crucial to addressing environmental challenges. Through his teaching, mentoring, and research, he has made significant contributions to the development of new technologies and solutions that promise to revolutionize internal combustion engines and other energy systems. Dr. Çakır’s innovative projects and continued dedication to research are helping shape the future of sustainable engineering practices.

Avishkar Bhoskar | Sustainability in Oil and Gas | Best Researcher Award

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Dr. Avishkar Bhoskar | Sustainability in Oil and Gas | Best Researcher Award

Application Scientist at Asian Lab Grown Diamonds, India.

Avishkar Ramchandra Bhoskar is a dedicated and accomplished Application Scientist and Mechanical Engineer with a profound expertise in material characterization, advanced metallurgical studies, and wear-resistant coatings. With a Ph.D. in Mechanical Engineering from Sardar Vallabhbhai National Institute of Technology (SVNIT), Surat, he has contributed significantly to the field of material science, focusing on metallurgical failure analysis, CVD machine design, and welding metallurgy. His research has yielded notable advancements in wear resistance and hardness improvements of metallic coatings. He currently applies his extensive research background in his role at Asian Lab Grown Diamonds, where he focuses on the development of synthetic diamonds for industrial applications.

Profile

Scopus

Education

Avishkar Bhoskar pursued his Ph.D. in Mechanical Engineering at SVNIT, Surat, from 2018 to 2023, achieving a CGPA of 8.58. His doctoral research, titled “Metallurgical Studies on Cobalt-based Stellite 6 Coating Deposited on SS316L Substrate,” explored metallurgical properties using advanced characterization techniques like SEM, EDS, and XRD. He previously obtained his M.Tech in Automobile Engineering from Rajarambapu Institute of Technology (2015-2017), where he conducted research on the mathematical modeling and analysis of bevel gears. His undergraduate degree in Mechanical Engineering from M.G.M. College of Engineering, Nanded (2011-2015), focused on the design and manufacturing of a foot-operated pesticide sprayer, demonstrating his early interest in applied mechanical engineering.

Experience

Currently serving as an Application Scientist at Asian Lab Grown Diamonds, Avishkar is engaged in research on single-crystal and polycrystalline diamonds for industrial applications. His role involves optimizing diamond growth processes and developing CVD machines for advanced material synthesis. Prior to this, he spent five years as a Research Scholar at SVNIT, Surat, investigating metallurgical transformations in cladded surfaces and wear-resistant coatings. His industry experience includes a research internship at Ghatage Patil Industries Ltd., where he worked on the design and analysis of alloy steel bevel gears, and a technical internship at Mercedes-Benz, Pune, where he gained hands-on experience in vehicle maintenance and mechanical system optimization.

Research Interest

Avishkar research interests encompass advanced material processing, metallurgical characterization, welding metallurgy, and wear-resistant coatings. His expertise extends to powder-fed plasma transferred arc welding (PTAW), failure analysis of hardfaced components, and the application of high-temperature metallurgical coatings. He is particularly interested in exploring novel metallurgical architectures for industrial applications, with a focus on enhancing mechanical properties and durability through microstructural optimization.

Awards and Achievements

Throughout his academic and professional journey, Avishkar has received several prestigious accolades. He was awarded TEQIP funding for metallurgical sample testing and was a recipient of the Ministry of Education Scholarship at SVNIT Surat (2018–2024) and RIT Rajaramnagar (2015–2017). He played a key role in establishing the E-Yantra Lab at DPCOE, Pune, in collaboration with IIT Bombay, and successfully qualified the GATE 2015 exam in Mechanical Engineering. His contributions to material science and engineering have been recognized through multiple journal publications and international conference presentations.

Selected Publications

Bhoskar, A., & Kalyankar, V. (2024). Effect of powder feed rate on the structure and properties of plasma deposited Stellite 6 cladding on SS316L stainless steel substrate. Metal Science and Heat Treatment, cited by 7 articles.

Bhoskar, A., Kalyankar, V., & Deshmukh, D. (2024). Implications of FCC and HCP cobalt phases on wear performance of weld deposited cobalt-based coating. Results in Surfaces and Interfaces, cited by 5 articles.

Bhoskar, A., Singh, K., & Kalyankar, V. (2025). On the impact of stack patterns on the microstructure and wear performance of Colmonoy 6 coatings deposited on SS 304 via PTAW. Results in Surfaces and Interfaces, cited by 4 articles.

Bhoskar, A., Kalyankar, V., & Deshmukh, D. (2023). Metallurgical characterisation of multi-track Stellite 6 coating on SS316L substrate. Canadian Metallurgical Quarterly, cited by 6 articles.

Bhoskar, A., Naik, H., Kalyankar, V., & Deshmukh, D. (2025). Nickel-Based Metallurgical Coating Architectures for Superior Wear Resistance in High-Temperature P91 Steel Applications. Journal of Alloys and Metallurgical Systems, cited by 3 articles.

Kalyankar, V., Bhoskar, A., Deshmukh, D., & Patil, S. (2022). On the performance of metallurgical behaviour of Stellite 6 cladding deposited on SS316L substrate with PTAW process. Canadian Metallurgical Quarterly, cited by 2 articles.

Kalyankar, V., & Bhoskar, A. (2021). Influence of torch oscillation on the microstructure of Colmonoy 6 overlay deposition on SS304 substrate with PTA welding process. Metallurgical Research & Technology, cited by 1 article.

Conclusion

Avishkar Ramchandra Bhoskar is a highly skilled and research-driven professional with a strong background in metallurgical engineering, material characterization, and advanced manufacturing processes. His contributions to the field of wear-resistant coatings and metallurgical failure analysis have been instrumental in advancing industry applications. Through his ongoing research and industrial endeavors, he continues to bridge the gap between academia and industry, pushing the boundaries of material science for real-world applications. His expertise in CVD machine design, welding metallurgy, and hardfacing solutions makes him a valuable asset to the field of advanced material engineering.