Ahmad Bawagnih | Mechanical Engineering | Young Scientist Award

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Mr. Ahmad Bawagnih | Mechanical Engineering | Young Scientist Award

King Fahd University of Petroleum & Minerals | Saudi Arabia

Mr. Ahmad Hatem Bawagnih is an emerging researcher in the field of mechanical and materials engineering, with a strong focus on advanced manufacturing processes, tribology, and finite element modeling (FEA). Currently pursuing his Master’s degree in Mechanical Engineering (Materials and Manufacturing) at King Fahd University of Petroleum & Minerals (KFUPM), Saudi Arabia, he has already made significant contributions through funded research projects, scholarly publications, and academic teaching. Ahmad’s expertise spans thermomechanical analysis, wear resistance, additive manufacturing, and corrosion studies, which are essential for advancing industrial applications in oil, gas, and materials science. His master’s thesis on tribological characterization of fiber-reinforced epoxy composites has direct industrial relevance, particularly in petroleum casing applications. Ahmad has collaborated with Saudi Aramco and the Deanship of Scientific Research at KFUPM, contributing to impactful projects such as non-metallic casing wear factor development and friction stir welding repair methods. His publications in high-quality journals and conference proceedings reflect his research depth and commitment to excellence. Alongside research, he contributes to academic growth as a Graduate Assistant, teaching courses in materials science and mechanical engineering labs. With a proven record of academic performance, industry experience, and technical expertise, Ahmad represents the new generation of researchers bridging academic knowledge with real-world applications.

Professional Profile

Scopus | ORCID | Google Scholar

Education

Mr. Ahmad Hatem Bawagnih’s educational journey demonstrates consistent academic excellence and specialization in mechanical engineering. He earned his Bachelor’s degree in Mechanical Engineering (Production and Machines) from Al-Balqaʼ Applied University, Jordan, graduating with a GPA of 3.56 and ranking 3rd in his class. His undergraduate project investigated the effect of welding current on the mechanical properties and microstructure of stainless steel, providing him with early exposure to metallurgical and materials research. Building on this strong foundation, Ahmad pursued his M.Sc. in Mechanical Engineering (Materials and Manufacturing) at King Fahd University of Petroleum & Minerals (KFUPM), Dhahran, Saudi Arabia, starting. KFUPM, ranked among the top 100 global universities, provided him with a highly competitive research environment. His graduate coursework includes advanced modules such as fracture of engineering materials, finite element analysis, mechanical properties of engineering polymers, and corrosion in petroleum systems. His thesis focuses on the tribological characterization of glass fiber–reinforced epoxy composites for oil well casing coatings, integrating both theoretical modeling and experimental validation. Additionally, he has completed research projects on friction stir welding, crack repair, and corrosion effects on mechanical properties, strengthening his expertise in simulation, testing, and material evaluation. This educational background forms a solid base for his ongoing research contributions.

Professional Experience

Mr. Ahmad Hatem Bawagnih combines academic teaching, research involvement, and industrial engineering practice, which enriches his professional profile. He has been serving as a Graduate Assistant at KFUPM, where he has contributed to teaching materials science, mechanical engineering workshops, and tribology labs. In this role, he has guided undergraduate students, supported laboratory experiments, and assisted in curriculum delivery, ensuring a balance between theory and practice. His earlier experience as a Mechanical Engineering Teacher under the Jordanian Ministry of Education enabled him to deliver complete courses in welding technology, metal forming, and mechanical drawing, as well as supervise student training workshops. Ahmad also worked as a Maintenance Engineer at Al Durra International for Food Industry, where he implemented maintenance schedules, modified production lines, and supervised the manufacturing of stainless-steel food tanks. This practical engineering experience provided him with insight into industrial problem-solving, process optimization, and team management. His diverse experiences across academia, research, and industry allow him to approach engineering challenges with both theoretical expertise and applied knowledge. These professional roles have not only shaped his technical and managerial abilities but also positioned him as a strong candidate for future leadership in engineering research and education.

Research Interests

Mr. Ahmad Hatem Bawagnih’s research interests lie at the intersection of materials engineering, advanced manufacturing, and mechanical testing, with a particular emphasis on tribology, corrosion, and structural integrity. He is deeply engaged in finite element modeling (FEA) for thermomechanical analysis of processes such as welding, friction stir processing, and additive manufacturing. His focus on tribological performance of coatings and composites is directly tied to industrial applications, especially in oil well casing protection where wear and corrosion resistance are crucial. Additionally, Ahmad is keen to explore additive manufacturing technologies and their integration into mechanical and materials engineering, targeting innovations that improve material properties, reduce costs, and enhance sustainability. His published research includes tribological characterization of epoxy composite coatings and surface crack repair in aluminum alloys using friction stir welding, both of which contribute to global advancements in manufacturing technologies. Ahmad also has a growing interest in corrosion testing, mechanical behavior under environmental stress, and the design of wear-resistant materials. Looking ahead, he intends to expand his research into smart materials and advanced composites, bridging fundamental studies with industrial challenges. This evolving interest ensures his work remains relevant and impactful in both academic and applied engineering contexts.

Research Skills

Mr. Ahmad Hatem Bawagnih has developed a comprehensive set of research and technical skills that enhance his ability to contribute effectively to mechanical and materials engineering. His core expertise lies in finite element analysis (FEA) using ANSYS, ABAQUS, and 3D Flow, where he has modeled fracture toughness, thermomechanical stresses, and corrosion effects on materials. He possesses advanced proficiency in 3D modeling and assembly using SolidWorks, enabling him to design components and simulate real-world engineering scenarios. Ahmad is also experienced in tribological testing, corrosion evaluation (ASTM G48 methods), and mechanical property assessments under various environmental conditions. His academic training has equipped him with strong skills in simulation, experimental testing, data interpretation, and academic writing. He has contributed to high-quality publications in journals such as Polymers and Journal of Advanced Joining Processes, as well as conference proceedings published by Springer. Beyond technical expertise, Ahmad is skilled in teaching laboratory-based courses, mentoring students, and assisting with research experiments, which strengthens his academic leadership profile. His exposure to collaborative, interdisciplinary, and industry-funded projects reflects his adaptability and teamwork skills. Collectively, these competencies highlight his ability to tackle complex engineering problems, produce publishable research, and transfer knowledge effectively within academia and industry.

Awards & Honors

Mr. Ahmad Hatem Bawagnih has consistently demonstrated academic excellence and merit, earning recognition through fully funded scholarships during both his undergraduate and graduate studies. His academic achievements at Al-Balqaʼ Applied University placed him among the top-performing students, graduating with a high GPA and ranking 3rd in his class. His performance earned him a competitive scholarship to continue his M.Sc. at KFUPM, one of the region’s most prestigious universities. In addition to scholarships, Ahmad’s contributions to the field are recognized through peer-reviewed journal articles and conference presentations, which serve as professional accolades of his research excellence. His publications in Polymers and Journal of Advanced Joining Processes, along with contributions to Springer’s TMS conference series, highlight his growing recognition in the global research community. Professionally, his ability to secure roles as a Graduate Assistant and Mechanical Engineering Teacher reflects trust in his academic competence and teaching skills. These honors and achievements underscore his dedication to both research and education. They also emphasize his potential to become a future leader in engineering research. His combination of awards, research output, and teaching accomplishments positions him as a well-rounded candidate for international recognition.

Publication Top Notes

  • Temperature and Stresses in AA 6082-T6 Friction Stir Spot Welding (FSSW) Using Coupled Eulerian–Lagrangian Finite Element Method — 2025 — 1 citation

  • Tribological Characterization of an Epoxy Composite Coating for Enhanced Wear Resistance in Oil Well Casing Applications — 2025

  • Surface Cracks Repair in AA6061-T6 Aluminum Alloys Using Friction Stir Processing — 2025

  • Influence of Friction Stir Welding on the Corrosion Resistance of Al6061 — 2025

  • A Novel Approach to Friction Stir Welding (FSW): Repairing Cracks in AA6061-T6 Aluminium Alloy Using Aluminium Filler Rod and SiC Nanoparticles — 2025

  • in AA6061-T6 Aluminium Alloy Using (Friction Stir Welding and Processing XIII) — 2025

Conclusion

In conclusion, Mr. Ahmad Hatem Bawagnih is a dynamic researcher and engineer whose academic, professional, and research journey reflects both dedication and innovation. His educational path from Jordan to Saudi Arabia demonstrates resilience and ambition, while his active contributions in tribology, finite element modeling, and materials characterization showcase his ability to address critical challenges in engineering. Through his publications, funded projects with Saudi Aramco, and teaching at KFUPM, he has already made a mark on the global research landscape. Ahmad’s technical expertise, academic leadership, and industry experience distinguish him as more than just a student researcher—he is a promising scholar positioned to influence both academia and industry. His future plans to explore additive manufacturing and advanced composite materials signal his forward-thinking approach to engineering challenges. Recognized with scholarships, publications, and teaching roles, he embodies the qualities of a dedicated researcher deserving of recognition through awards such as the Best Researcher Award. With continued focus on expanding collaborations and publishing in high-impact journals, Ahmad is well-positioned to become a global leader in mechanical and materials engineering research, driving innovation and contributing meaningfully to scientific and industrial advancements.

Majid Dashti Barmaki | Engineering | Best Researcher Award

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Mr. Majid Dashti Barmaki | Engineering | Best Researcher Award

Water Resource Expert from Kharazmi University of Tehran, Iran

Majid Dashti Barmaki is a distinguished Iranian hydrogeologist with over 15 years of combined academic, industrial, and research experience. he has consistently contributed to the understanding and development of groundwater systems, karst hydrogeology, water quality assessment, and geospatial modeling. With advanced degrees in geology and hydrogeology from prestigious Iranian institutions such as Shiraz University and Kharazmi University, Dr. Barmaki has developed a rich body of work encompassing both theoretical insight and practical application. His scholarly output includes over 20 peer-reviewed international and national articles in journals from Springer, Taylor & Francis, Elsevier, Wiley, and the Geological Society of London. His work bridges geology, environmental science, and engineering, highlighting an interdisciplinary approach. He has also provided expert consultancy in water resources projects such as tunnel hydrogeology, aquifer balance, and land subsidence analysis. Through workshops, university lectures, and research mentoring, he has shaped many young professionals in Earth sciences. Dr. Barmaki’s continuous efforts to improve groundwater sustainability in arid regions, coupled with his active role in environmental planning, position him as a significant contributor to the hydrogeological field. His expertise is currently sought globally as he seeks opportunities to further his impact in academic and industrial research worldwide.

Professional Profile

Education

Majid Dashti Barmaki has an extensive academic background in Earth Sciences, with a focused specialization in hydrogeology. He earned his Bachelor’s degree in Geology from Shiraz University in 2006, where he laid the foundational knowledge of Earth systems. He pursued his Master of Science degree at Kharazmi University (formerly Tarbiat Moallem University) in Tehran from 2007 to 2010, focusing on Hydrogeology. His MSc thesis applied GIS and remote sensing techniques to assess karst groundwater potential in anticline structures, reflecting his early interest in integrating geospatial tools with hydrogeological modeling. Continuing at Kharazmi University, he obtained his Ph.D. in Karst Hydrogeology from 2011 to 2019. His doctoral research examined karst development factors affecting the Asmari Formation in the Zagros Mountains, one of Iran’s critical aquifer systems. His education is not only academically sound but also application-oriented, as demonstrated by his emphasis on GIS, statistical analysis, and environmental assessment in groundwater sciences. This strong academic trajectory, enriched with practical thesis topics, has prepared him for high-level consultancy, teaching, and research roles in both national and international hydrogeology-focused projects.

Professional Experience

Dr. Majid Dashti Barmaki brings over 15 years of diverse professional experience as a hydrogeologist, academic, and consultant. His career spans collaborations with leading Iranian consulting engineering companies such as Fannavaran Tarh-e-Jamea, Sahel Consulting Engineers, Dezab, Rayab, and others, where he specialized in water resource assessments for tunnel projects, land subsidence studies, and environmental monitoring. Notably, he served as a key hydrogeology expert for major tunnel excavation projects, evaluating groundwater inflow, hydrological impacts, and tunnel pressure loads. From 2012 to 2025, he also worked in national-level research and implementation projects related to groundwater sustainability, illegal well monitoring, and surface water drainage systems. His academic involvement includes teaching several university courses such as surveying, statistics for geology, map reading, and soil geography. He has also conducted workshops on GIS applications at Kharazmi University. His long-standing fieldwork expertise is evident in the detailed hydrogeological profiles he has generated and the policy-relevant environmental assessments he has contributed to. His leadership in multi-year projects showcases his capability to manage complex hydrological systems and deliver data-driven solutions. Through his multifaceted experience, Dr. Barmaki has effectively bridged academic theory with engineering practice in Iran’s most critical water management initiatives.

Research Interest

Dr. Majid Dashti Barmaki’s research interests lie at the intersection of groundwater hydrogeology, karst systems, environmental geochemistry, and spatial modeling. A central theme of his work is the assessment and management of karst aquifers, particularly within the Zagros region, one of Iran’s most hydrogeologically significant landscapes. He is deeply invested in understanding how geological structures influence groundwater flow and the vulnerability of aquifers to pollution and overexploitation. His research extends to groundwater quality evaluation using health risk assessments, pollution indices, and fuzzy logic systems. He has also explored fractal geometry and geostatistical kriging methods to identify groundwater potential zones. Another significant domain of his research includes the integration of remote sensing and GIS techniques with hydrogeological mapping to model water resources and assess land subsidence risks. His academic output reflects a multidisciplinary approach, combining environmental science, engineering, and computer-based modeling. His more recent studies have addressed environmental impacts from mining and tunneling operations, with a focus on sustainable water resource planning. Overall, Dr. Barmaki’s research aims to create actionable insights that support water security, climate resilience, and ecological sustainability in arid and semi-arid regions.

Research Skills

Dr. Majid Dashti Barmaki possesses a comprehensive set of research skills that span hydrogeology, environmental assessment, GIS-based analysis, and statistical modeling. His expertise includes groundwater flow modeling, aquifer characterization, and water quality analysis using advanced techniques such as fuzzy inference systems, fractal analysis, and risk indexing. He is proficient in using hydrogeological software like PhreeQC, Aq-Qa, Aquachem, RockWare, Aquifer Test, and GMS, which are essential for conducting water chemistry evaluations and aquifer simulations. His geospatial analysis skills are advanced, with capabilities in ArcGIS, ENVI, ILWIS, Global Mapper, and SASPlanet. He has employed multi-criteria decision-making models such as AHP and fuzzy logic to evaluate groundwater vulnerability and land subsidence. He is also experienced in laboratory hydrogeochemistry, data visualization, and the development of hydrogeological cross-sections. Beyond technical tools, he is adept at conducting fieldwork, designing surveys, managing databases, and preparing high-quality research reports and environmental assessments. His ability to combine statistical tools like SPSS with field-based insights allows for holistic environmental and geological interpretations. These diverse research competencies have enabled him to contribute to multi-institutional projects and publish in leading international journals in the geosciences and environmental engineering fields.

Awards and Honors

While Dr. Majid Dashti Barmaki’s professional profile does not list formal awards, his distinguished achievements and contributions reflect recognition through impactful roles and scholarly publications. His articles have appeared in prestigious journals such as Arabian Journal of Geosciences, Geocarto International, Water and Environment Journal, and Quarterly Journal of Engineering Geology and Hydrogeology, showcasing international peer-reviewed validation of his research. His invited participation in multiple national geological conferences in Iran—such as the Geological Society of Iran’s annual meetings—demonstrates academic endorsement and thought leadership. He has also led and contributed to high-stakes national and industrial projects under the Iranian Ministry of Energy and regional water authorities. These responsibilities entrusted to him reflect implicit recognition of his expertise in hydrogeology and environmental planning. Additionally, his teaching roles, workshops, and project supervision illustrate institutional trust in his academic capabilities. Although he may not have been conferred with traditional awards or honors, his consistent involvement in nationally significant water resource studies and publication in high-impact journals affirms his status as a respected researcher and professional in the field of hydrogeology.

Conclusion

Dr. Majid Dashti Barmaki stands out as a highly competent and impactful researcher in the field of hydrogeology. His academic journey—from undergraduate geology to a Ph.D. in karst hydrogeology—has been marked by a strong commitment to applied science, innovation, and sustainable groundwater management. With over a decade of professional engagement in both academic and industry environments, he has consistently addressed key water resource challenges in Iran. His research, which integrates field studies, GIS tools, statistical models, and advanced hydrogeological software, is practical, data-driven, and environmentally conscious. His publication record in leading journals and active participation in major national water and environmental projects reflect a deep expertise and a collaborative spirit. He has also contributed to knowledge transfer through teaching, workshops, and mentoring, proving himself as an educator and thought leader. As global water security becomes an increasing concern, professionals like Dr. Barmaki—who combine technical depth with societal relevance—are essential. His readiness to engage in international collaborations and continue his impactful work on a global scale makes him a deserving candidate for any recognition or opportunity aimed at honoring excellence in hydrogeological research and sustainable development.

Publications Top Notes

  1. Hydrogeochemical characteristics of cold and warm (hot) springs in the Mahallat geothermal region, Iran
    Authors: Majid Dashti Barmaki, Davar Ebrahimi, Zahra Yazdani Noori
    Journal: Quarterly Journal of Engineering Geology and Hydrogeology
    Year: 2025

  2. Land subsidence susceptibility mapping using Analytical Hierarchy Process (AHP) and Certain Factor (CF) models at Neyshabur plain, Iran
    Authors: Rezaei M., Yazdani Noori Z., Dashti Barmaki M.
    Journal: Geocarto International
    Year: 2020

  3. Use of fractal dimensions analysis in geographic information system and remote-sensing techniques to identify groundwater prospective zones in the Anar-Dashtegol anticline, Iran
    Authors: M. Dashti Barmaki, M. Rezaei, S. Madadi
    Journal: Carbonates and Evaporites
    Year: 2020

  4. Water chemistry and water quality pollution indices of heavy metals: a case study of Chahnimeh Water Reservoirs, Southeast of Iran
    Authors not fully listed
    Journal: International Journal of Energy and Water Resources
    Year: 2020

  5. Comparison of surface and interior karst development in Zagros Karst Aquifers, Southwest Iran
    Authors: Majid Dashti Barmaki
    Journal: Journal of Cave and Karst Studies
    Year: 2019

  6. Qanat, a technique appropriate for extracting water from hard rock terrains: the case study of Bilvar district, Kurdistan, Iran
    Author: Majid Dashti Barmaki
    Journal: International Journal of Hydrology Science and Technology
    Year: 2017

  7. Extracting of prospective groundwater potential zones using remote sensing data, GIS, and a probabilistic approach in Bojnourd basin, NE of Iran
    Authors: Majid Dashti Barmaki
    Journal: Arabian Journal of Geosciences
    Year: 2017

  8. Recognition of karst hydrology and water resources interaction in Kazerun Karstic Zones, South of Iran
    Authors: Majid Dashti Barmaki
    Journal: Arabian Journal of Geosciences
    Year: 2016

  9. Groundwater contamination analysis using Fuzzy Water Quality index (FWQI): Yazd province, Iran
    Authors: Majid Dashti Barmaki
    Journal: Geopersia
    Year: 2013

  10. Analysis of Groundwater Quality using Mamdani Fuzzy Inference System (MFIS) in Yazd province, Iran
    Authors: Majid Dashti Barmaki
    Journal: International Journal of Computer Applications
    Year: 2012

Hamed Pahlavani | Engineering | Best Researcher Award

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Dr. Hamed Pahlavani | Engineering | Best Researcher Award

CFD & Process Engineer from Dal Engineering Group, Turkey

Dr. Hamed Pahlavani is a distinguished Mechanical Engineer and Computational Fluid Dynamics (CFD) specialist with expertise spanning biomedical simulations, reactive multiphase flows, and energy system optimization. Currently serving as a Process & CFD Engineer at Dal Engineering Group in Istanbul, Turkey, he combines high-level academic research with real-world industrial applications. Dr. Pahlavani’s work integrates computational modeling of blood flow dynamics in cerebral aneurysms with fluid-structure interaction (FSI) techniques, as well as combustion modeling for alternative fuels in large-scale energy systems. With a robust foundation in OpenFOAM and other numerical tools, he has developed custom solvers and predictive models, making significant contributions to cardiovascular modeling, energy optimization, and environmental engineering. His innovative approaches and research outputs are featured in several peer-reviewed journals. In addition to his scientific contributions, he has been an active participant in industry-sponsored and TÜBİTAK-funded projects. His cross-disciplinary knowledge, proficiency in simulation platforms, and commitment to solving critical engineering challenges demonstrate both academic and practical excellence. Fluent in English, Turkish, and Persian, Dr. Pahlavani has also presented his work internationally, earning recognition within both academia and industry. His combination of deep technical acumen, innovative thinking, and collaborative mindset makes him a standout candidate for the Best Researcher Award.

Professional Profile

Education

Dr. Hamed Pahlavani holds a Ph.D. in Mechanical Engineering from Istanbul Technical University, Turkey, awarded in January 2022. His doctoral dissertation, titled “Modeling of Two-Phase Blood Flow and Fluid-Structure Interactions in Cerebral Aneurysms”, focused on applying advanced CFD techniques and FSI to model blood rheology and arterial wall deformation. He utilized state-of-the-art simulation tools such as OpenFOAM, CALCULIX, and preCICE, running high-performance computing (HPC) environments to address complex, patient-specific geometries. Prior to this, he completed a Master of Science in Mechanical Engineering from the same institution in 2015. His M.Sc. thesis involved the design and simulation of a refrigerator cabinet based on the solidification process of polyurethane foam, emphasizing multiphase reactive flows and chemical kinetics using ANSYS Fluent. Dr. Pahlavani began his academic journey with a Bachelor of Science degree from Azad University of Khoy, Iran, in 2012, laying a strong foundation in classical mechanical engineering principles. His educational background reflects a consistent trajectory of excellence, with progressive specialization in simulation-based design, energy systems, and biomedical engineering. The combination of solid academic preparation and advanced computational modeling skills has positioned him to tackle both fundamental and applied engineering problems across multiple sectors.

Professional Experience

Dr. Hamed Pahlavani has accumulated valuable professional experience across both industrial and academic domains. Since November 2023, he has been working as a Process & CFD Engineer at Dal Engineering Group in Istanbul, where he leads simulation projects focused on the combustion of alternative fuels and calcination processes in cement calciners. He has applied OpenFOAM’s Euler–Lagrange framework to model solid fuel behavior, reaction kinetics, and pollutant formation. He also performs 1D heat and mass balance modeling to support plant optimization efforts and has participated in field measurements to validate simulation outputs with real-world data. Prior to this, from October 2021 to May 2023, Dr. Pahlavani served as a CFD, Combustion, and Thermal Systems Engineer at Turaş GAS A.Ş., where he focused on improving domestic gas burner performance using CFD tools, achieving notable reductions in emissions and increases in thermal efficiency. His earlier engagements included roles in academic projects sponsored by TÜBİTAK and the Turkish Ministry of Industry. These roles required him to blend research and development with engineering applications, often collaborating with multidisciplinary teams. His professional record illustrates his capacity to translate complex simulation data into actionable outcomes for environmental and industrial improvements.

Research Interests

Dr. Pahlavani’s research interests lie at the intersection of computational modeling, thermal-fluid sciences, and biomedical engineering. A central theme in his research is Computational Fluid Dynamics (CFD), particularly applied to multiphase and turbulent reactive flows, combustion systems, and fluid-structure interactions (FSI). His work on alternative fuel combustion explores the behavior of solid fuels such as TDF, rubber, SRF, and petcoke, focusing on processes like drying, devolatilization, and char oxidation using custom reaction models. In the biomedical field, he specializes in non-Newtonian blood flow modeling and its interactions with arterial structures, enabling in-depth investigations of cerebral aneurysms, thrombosis risks, and blood rheology using advanced simulation techniques. Additional interests include optimization of energy systems, gas-solid interactions, phase change modeling, and biomedical flow simulations in patient-specific geometries. His focus is both analytical and practical, using computational methods to simulate real-world behavior in mechanical systems, energy conversion units, and biological tissues. The cross-domain applicability of his research makes it highly relevant to healthcare innovation, renewable energy development, and environmental sustainability. Dr. Pahlavani’s ongoing work continues to address critical challenges in these fields through innovative simulation-based methodologies.

Research Skills

Dr. Pahlavani possesses an extensive array of research and technical skills that position him at the forefront of simulation-based engineering. He is highly proficient in OpenFOAM, an open-source CFD platform where he develops and customizes solvers for turbulent and multiphase flows, including complex chemical reactions and phase transitions. He has utilized CALCULIX for structural analysis and preCICE for coupling fluid and solid domains, enabling sophisticated fluid-structure interaction (FSI) simulations. His programming capabilities include C++ and Python, allowing him to tailor numerical models and automate simulation workflows. Additionally, he is experienced with ANSYS Fluent, ICEM CFD, Tecplot, Paraview, and CAD tools such as CATIA v5 and SolidWorks. These tools have been critical in simulating complex systems ranging from domestic gas burners to cement calciners and blood flow in cerebral arteries. His ability to integrate 1D process modeling with full-scale CFD simulations enhances his capacity for system-wide energy optimization and emissions reduction. Dr. Pahlavani also possesses strong data validation skills, conducting on-site measurements to ensure simulation accuracy. His blend of coding expertise, engineering judgment, and validation techniques reflects a well-rounded research skill set with high translational value.

Awards and Honors

Dr. Hamed Pahlavani has received notable awards and honors in recognition of his contributions to computational modeling and engineering innovation. He served as the Principal Researcher for a TÜBİTAK-funded project titled “Computational Modelling of Deep Vein Thrombosis” (Project No. 117M430), which involved simulating thrombus formation using CFD-FSI coupling techniques in patient-specific geometries. This project not only demonstrated his academic leadership but also showcased the medical relevance of his research. He also contributed significantly to an industry-sponsored project titled “CFD Modeling of Reaction and Injection Molding of Polyurethane Foam in Refrigerators”, supported by the Ministry of Industry and Arçelik Inc. (Project No. 01213.STZ.2012-1). These honors reflect his capacity to attract funding and execute impactful projects that bridge science and industry. In addition to research awards, Dr. Pahlavani’s technical papers and conference presentations have received recognition at scientific meetings, further validating the quality and relevance of his work. His demonstrated success in securing competitive funding, combined with strong industry collaboration, underlines his innovative approach to solving engineering challenges and his potential for continued leadership in computational mechanics.

Conclusion

In conclusion, Dr. Hamed Pahlavani exemplifies a modern, research-driven mechanical engineer with an exceptional portfolio that blends academic rigor with industrial relevance. His contributions span diverse domains, from biomedical flow simulations to advanced combustion modeling and energy system optimization. With a Ph.D. from Istanbul Technical University, multiple peer-reviewed publications, and hands-on experience in both experimental validation and computational design, he brings a rare depth of understanding to complex fluid dynamics and multiphysics systems. His leadership in TÜBİTAK- and industry-funded projects, combined with technical mastery of tools such as OpenFOAM, preCICE, and CALCULIX, further reinforces his excellence in research execution and impact delivery. Dr. Pahlavani’s work not only pushes the frontiers of CFD and biomedical engineering but also contributes significantly to sustainability efforts by improving combustion efficiency and reducing emissions in industrial systems. His multilingual proficiency and international collaborations position him as a globally relevant researcher capable of addressing multidisciplinary challenges. Based on his accomplishments and forward-looking research agenda, Dr. Pahlavani is an outstanding candidate for the Best Researcher Award. His innovative thinking, problem-solving skills, and dedication to societal advancement through engineering research mark him as a leader of the future.

Publications Top Notes

  1. Effect of red blood cell concentration on the blood flow in patient-specific aneurysms
    2025 | Pahlavani, H.; Ozdemir, I.B.
  2. Interactions between non-Newtonian blood flow and deformable walls of a patient-specific aneurysm
    2025 | H. Pahlavani; I.B. Ozdemir
  3. Neural network predictive models to determine the effect of blood composition on the patient-specific aneurysm
    2023 | Quadros, J.D.; Pahlavani, H.; Ozdemir, I.B.; Mogul, Y.I.
  4. CFD models for aneurysm analyses and their use in identifying thrombosis formation and risk assessment
    2022 | Pahlavani, H.; Ozdemir, I.B.; Yildirim, D.
  5. Effects of forebody geometry on side forces on a cylindrical afterbody at high angles of attack
    2020 | Serdaroglu Timucin; Pahlavani Hamed; Ozdemir I. Bedii
  6. Effects of air vents on the flow of reacting polyurethane foam in a refrigerator cavity
    2018 | Özdemir, İ.B.; Pahlavani, H.

Jingxia Wang | Engineering | Best Researcher Award

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Ms. Jingxia Wang | Engineering | Best Researcher Award

Doctor from University of Shanghai for Science and Technology, China

Jingxia Wang is a promising young researcher and lecturer in the School of Mechanical Engineering at the University of Shanghai for Science and Technology. Her academic journey and research achievements reflect a strong commitment to advancing the field of electrical and electromechanical systems. With a specialized focus on the electromagnetic-thermal coupling and iron loss analysis in electric machines, she has contributed significantly to the theoretical and applied aspects of energy conversion technologies. Her research addresses key challenges in improving the performance and efficiency of permanent magnet and induction motors under inverter supply, aligning with the growing demands for high-performance electric drives. She has published several high-quality articles in top-tier journals such as IEEE Transactions on Industrial Electronics and IEEE Transactions on Energy Conversion, establishing her as a rising expert in her field. In addition to scholarly publications, she has also contributed to patented innovations in the domain of loss calculation and electromagnetic simulation. Her active participation in national research funding programs and leadership roles in funded projects underscore her academic capabilities. Jingxia Wang continues to grow as an independent researcher with a clear vision and technical depth, making her a strong candidate for prestigious academic recognition, including the Best Researcher Award.

Professional Profile

Education

Jingxia Wang has built her academic foundation through a robust and consistent educational trajectory in the field of electrical engineering. She completed her undergraduate studies at Northeast Electric Power University from September 2011 to July 2015, where she obtained a Bachelor’s degree in Electrical Engineering and Automation. Her early training laid the groundwork for deeper technical exploration and problem-solving in electric machine systems. Driven by academic passion and curiosity, she pursued doctoral studies at Southeast University—one of China’s top institutions—in the field of Electrical Engineering from September 2015 to March 2022. During her Ph.D., she specialized in iron loss modeling, magnetic field modulation, and electromagnetic-thermal coupling in motor systems, which later became core aspects of her research focus. Her doctoral work contributed to high-impact publications and several patents, indicating both theoretical innovation and practical relevance. While she has not undertaken a postdoctoral fellowship, the depth and breadth of her Ph.D. training have equipped her with the technical acumen necessary for independent research and academic leadership. Her educational background reflects strong theoretical grounding and hands-on experience with complex computational models and machine dynamics, positioning her well within the academic and industrial research community.

Professional Experience

Jingxia Wang has been serving as a Lecturer at the School of Mechanical Engineering, University of Shanghai for Science and Technology since June 2022. In this capacity, she has been actively engaged in both teaching and research activities related to electric machinery and computational modeling. Her professional role involves mentoring students, contributing to curriculum development, and leading research projects funded by national and municipal agencies. Although she does not have postdoctoral experience, her transition from Ph.D. to faculty position demonstrates her capability to operate as an independent researcher. As a principal investigator, she has led and managed a National Natural Science Foundation Youth Fund project focused on inverter-fed induction motors and magnetic loss analysis, reflecting her technical leadership and project management skills. Additionally, she has participated in and contributed to major collaborative research projects funded by NSFC and the Shanghai Science and Technology Commission. Her involvement in interdisciplinary work, such as multi-physics coupling analysis, further expands the relevance of her professional profile across mechanical and electrical domains. Jingxia’s teaching experience and project responsibilities showcase a balanced academic career that combines foundational research, practical application, and knowledge dissemination, strengthening her suitability for academic recognition and further career advancement.

Research Interests

Jingxia Wang’s research interests lie at the intersection of electrical machine design, electromagnetic modeling, and multiphysics simulation. Her work primarily focuses on accurate calculation and analysis of iron loss in permanent magnet and induction motors, especially under pulse-width modulation (PWM) inverter supply. One of her core contributions has been the application of general airgap magnetic field modulation theory to quantify iron loss and stray load loss more effectively. Additionally, she has expanded her research into bidirectional coupling between electromagnetic and thermal fields, a critical area for enhancing the design accuracy and reliability of electric machines in dynamic environments. Her interests also include finite element analysis (FEA), fast calculation algorithms, and field-oriented control techniques for electric drives. Through her ongoing research, she addresses challenges in improving energy efficiency, thermal stability, and operational reliability in motor systems used in transportation, robotics, and industrial automation. Her work bridges theoretical electromagnetics with real-world implementation, making her contributions both academically valuable and industrially applicable. As sustainability and electrification become global priorities, her research remains timely and impactful, paving the way for smarter, more efficient electromechanical devices and systems.

Research Skills

Jingxia Wang possesses a comprehensive set of research skills that support her specialization in electric machine systems and computational modeling. She is highly proficient in electromagnetic field theory and loss analysis techniques, particularly in inverter-fed motors. Her expertise includes the application of general airgap field modulation theory, finite element analysis (FEA), and the development of fast calculation methods for complex electromechanical systems. She is also skilled in thermal simulation and electromagnetic-thermal bidirectional coupling analysis, which are crucial for evaluating machine performance under varying operational conditions. Her programming capabilities and simulation experience with industry-standard tools enable her to handle multi-domain simulations efficiently. Furthermore, she has experience with research project design, proposal writing, data interpretation, and results dissemination through high-impact publications. Her skill set extends to intellectual property development, as evidenced by her co-invention of several patents. Jingxia is adept at translating theoretical models into practical applications, making her a valuable collaborator in both academic and industrial research environments. Her methodological rigor, combined with strong analytical and communication skills, enhances her ability to lead independent research and mentor students in advanced engineering topics.

Awards and Honors

Although specific awards are not listed beyond patents and project funding, Jingxia Wang’s academic track record includes several forms of recognition that demonstrate her research excellence and innovative capabilities. She has received competitive research funding from the National Natural Science Foundation of China, including a Youth Fund project, which is highly regarded for supporting emerging researchers with outstanding potential. Her leadership in this and other municipal projects such as the Shanghai “Science and Technology Innovation Action Plan” reflects recognition by key funding bodies and the research community. Her scholarly work has appeared in prestigious journals such as IEEE Transactions on Industrial Electronics and IEEE Transactions on Energy Conversion, often as the sole first author—a significant academic distinction. She has also co-invented multiple patents related to magnetic field modulation, iron loss calculation, and electromagnetic-thermal modeling, highlighting her contribution to applied research and technology transfer. These honors, combined with her early career achievements, serve as strong indicators of her research strength, impact, and upward trajectory. As her academic career progresses, she is well-positioned to attain further distinctions at both national and international levels.

Conclusion

Jingxia Wang emerges as a highly capable and driven early-career academic with a solid foundation in electrical engineering and a sharp focus on energy-efficient electromechanical systems. Her contributions span theoretical innovation, computational modeling, and practical engineering solutions—making her research both relevant and forward-looking. Through high-impact publications, funded projects, and patented technologies, she has already made a significant mark in the field of electric machine analysis. Her ability to integrate electromagnetic theory with thermal dynamics in machine modeling reflects a rare depth of technical insight and interdisciplinary thinking. While she could further benefit from postdoctoral experience or international research exposure, her current achievements speak to her strong potential for future academic and industrial leadership. As a researcher who demonstrates clarity in focus, rigor in methodology, and creativity in solving complex engineering problems, Jingxia Wang is a compelling nominee for the Best Researcher Award. Her trajectory suggests sustained contributions to science and engineering, with the capacity to influence not only academic discourse but also real-world applications in energy and automation systems.

Publications Top Notes

  1. Double-virtual-vector-based model predictive torque control for dual three-phase PMSM
    Authors: Qingqing Yuan, Rongyan Xiao, Jingxia Wang, Kun Xia, Wei Yu
    Journal: Electronics (Switzerland)
    Year: 2025

Hulya Sen Arslan | Engineering | Women Researcher Award

Published on by Shen Awards

​Assist. Prof. Dr. Hulya Sen Arslan | Engineering | Women Researcher Award

KARAMANOĞLU MEHMETBEY UNIVERCITY, Turkey

Dr. Hülya Şen Arslan is a distinguished academic specializing in Food Engineering, with a focus on functional foods, food chemistry, and food microbiology. She is currently serving as an Assistant Professor in the Department of Food Engineering at Karamanoğlu Mehmetbey University. Dr. Arslan has an extensive educational background, having completed her undergraduate studies at Selçuk University, followed by a master’s degree at Erciyes University, and a doctorate at Selçuk University. Her research interests are deeply rooted in food sciences, particularly in the development and analysis of functional foods and the chemical and microbiological aspects of food products. Throughout her career, Dr. Arslan has contributed to the academic community with several publications and has actively participated in peer review processes. Her dedication to research and education in the field of food engineering underscores her commitment to advancing knowledge and promoting innovation in food science.

Professional Profile

Education

Dr. Hülya Şen Arslan’s academic journey commenced with a Bachelor of Science degree from Selçuk University’s Faculty of Agriculture, where she studied from 2009 to 2014. She then pursued a Master of Science in the Institute of Science at Erciyes University between 2014 and 2017. Her doctoral studies were conducted at Selçuk University’s Institute of Science from 2018 to 2022. This comprehensive educational background has provided Dr. Arslan with a solid foundation in agricultural and food sciences, equipping her with the necessary skills and knowledge to excel in her field.

Professional Experience

Currently, Dr. Hülya Şen Arslan holds the position of Assistant Professor in the Department of Food Engineering at Karamanoğlu Mehmetbey University. In this role, she is responsible for teaching undergraduate and graduate courses, mentoring students, and conducting research in her areas of expertise. Her professional experience is marked by a commitment to academic excellence and a dedication to advancing the field of food engineering through both education and research.

Research Interests

Dr. Arslan’s research interests encompass several critical areas within food sciences. She focuses on functional foods, exploring how bioactive components can enhance health benefits. Her work in food chemistry involves analyzing the molecular composition and properties of food substances, while her studies in food microbiology examine the role of microorganisms in food production, preservation, and safety. These research pursuits aim to contribute to the development of healthier and safer food products.

Research Skills

With a robust background in food sciences, Dr. Arslan possesses a diverse set of research skills. She is proficient in laboratory techniques pertinent to food chemistry and microbiology, including chromatographic and spectroscopic methods for analyzing food components, as well as microbiological assays for detecting and characterizing foodborne pathogens. Additionally, her expertise extends to the design and implementation of studies related to functional foods, encompassing both the development of novel food products and the assessment of their health impacts.

Awards and Honors

While specific awards and honors have not been detailed, Dr. Arslan’s contributions to the field of food engineering are evident through her active participation in research and academia. Her publications and involvement in peer review activities reflect a recognition of her expertise and dedication to advancing knowledge in food sciences.

Conclusion

In summary, Dr. Hülya Şen Arslan is a dedicated academic and researcher in the field of food engineering. Her comprehensive education and professional experience have enabled her to contribute significantly to the understanding and development of functional foods, food chemistry, and food microbiology. Through her teaching, research, and service to the academic community, Dr. Arslan continues to play a vital role in advancing the science of food and promoting innovations that enhance food quality and safety.

Publications Top Notes​

  • Title: Simultaneous extraction of phenolics and essential oil from peppermint by pressurized hot water extraction
    Authors: M. Cam, E. Yüksel, H. Alaşalvar, B. Başyiğit, H. Şen, M. Yılmaztekin, et al.
    Year: 2019
    Citations: 34

  • Title: Antioxidant and chemical effects of propolis, sage (Salvia officinalis L.), and lavender (Lavandula angustifolia Mill) ethanolic extracts on chicken sausages
    Authors: S. Yerlikaya, H. Şen Arslan
    Year: 2021
    Citations: 15

  • Title: Antibacterial and antioxidant activity of peach leaf extract prepared by air and microwave drying
    Authors: H. Şen Arslan, A. Cabi, S. Yerlikaya, C. Sariçoban
    Year: 2021
    Citations: 8

  • Title: Comparison some microbiological and physicochemical properties of freeze dryed and spray dryed milk powder
    Authors: S. Yerlikaya, H. Ş. Arslan
    Year: 2019
    Citations: 8*

  • Title: Effect of ultrasound and microwave pretreatments on some bioactive properties of beef protein hydrolysates
    Authors: H. Şen Arslan, C. Sariçoban
    Year: 2023
    Citations: 7

  • Title: Use of fruits and vegetables in meat and meat products in terms of dietary fiber
    Authors: H. Şen Arslan, C. Sariçoban, S. Yerlikaya
    Year: 2021
    Citations: 4

  • Title: Effects of various plant parts on storage stability and colour parameters of beef extracts
    Authors: B. A. Oğuz, C. Sarıçoban, H. Şen Arslan
    Year: 2019
    Citations: 4

  • Title: Ultrason destekli elma atık özütlerinin bazı biyoaktif özellikleri
    Authors: H. Ş. Arslan
    Year: 2023
    Citations: 3*

  • Title: Karaman İl Merkezinde Yaşayan Halkın Bilinçli Gıda Tüketim Derecesinin Araştırılması
    Authors: S. Yerlikaya, Ş. N. Karaman, S. Tuna, H. Ş. Arslan
    Year: 2020
    Citations: 3

  • Title: Increased reactive carboxyl and free alfa-amino groups from fish type I collagen peptides by Alcalase® hydrolysis exhibit higher antibacterial and antioxidant …
    Authors: S. Yasar, H. S. Arslan, K. Akgul
    Year: 2024
    Citations: 2

Mohammed Alfeki | Mechanical Engineering | Best Researcher Award

Published on by Shen Awards

Mr. Mohammed Alfeki | Mechanical Engineering | Best Researcher Award

Lecturer of Bule Hora University, Ethiopia.

Mohammed Abdulkedir Alfeki is a dedicated lecturer at Bule Hora University, Ethiopia, with a strong academic background in Mechanical Design Engineering and Mechanical Engineering. He earned his Master’s degree from Bahir Dar Institute of Technology and his Bachelor’s degree from Wollega University, both with excellent academic records. His research interests include composite materials, nanotechnology, and optimization, as reflected in his recent publications and conference presentations. Notably, his thesis work on bamboo fiber-reinforced composites demonstrates practical applications in material science. Mohammed actively engages in continuous learning, with certifications in teaching and modeling from prestigious institutions like the British Council and Arizona State University. He is proficient in several software tools including CATIA V5, ANSYS, and MATLAB, and is skilled in working within multicultural environments. His blend of academic excellence, active research, and commitment to professional development positions him as a promising candidate for the Research for Best Researcher Award.

Profile

Education

Mohammed Abdulkedir Alfeki completed his Bachelor of Science in Mechanical Engineering at Wollega University, Ethiopia, in June 2017, graduating with a notable CGPA of 3.66/4.00. His thesis focused on “Design and Modelling of Foot Step Power Generation,” highlighting his interest in innovative energy solutions. He pursued his Master of Science in Mechanical Design Engineering at Bahir Dar Institute of Technology, Bahir Dar University, from October 2019 to October 2021. His master’s thesis, titled “Analysis of Mechanical and Physical Properties of Bamboo Fiber Reinforced Polyester with Chopped Glass Fiber Filler Composite,” earned an excellent grade with a CGPA of 3.6/4.00. Mohammed’s academic background reflects a solid foundation in mechanical engineering principles and a keen interest in materials science and sustainable engineering practices. His educational achievements underline his dedication to advancing knowledge in his field.

Professional Experience

Mohammed Abdulkedir Alfeki is a Lecturer at Bule Hora University in Ethiopia, where he has been employed since October 2021. In this role, he is responsible for teaching and community service projects, delivering lectures on various engineering subjects including Tribology, Fluid Mechanics, and Refrigeration and Air Conditioning. His work involves not only imparting technical knowledge but also engaging in research and contributing to community development. Prior to this, he completed his Master’s degree in Mechanical Design Engineering at Bahir Dar Institute of Technology, where he conducted research on bamboo fiber-reinforced polyester composites. His professional experience is complemented by a solid academic background and a commitment to continuous learning, evidenced by several recent certifications in areas such as communication skills, online teaching, and energy modeling. Mohammed’s role at the university and his research activities reflect his dedication to advancing engineering education and innovation.

Research Interest

Mohammed Abdulkedir Alfeki’s research interests are centered on advancing the fields of composite materials, nanotechnology, and polymer science. His work explores the development and optimization of innovative materials, particularly focusing on bamboo fiber-reinforced composites and their applications. By integrating ceramic composites and nanotechnology, he aims to enhance the mechanical and physical properties of materials for various engineering applications. His research involves analyzing and optimizing composite structures to improve their performance and sustainability. Additionally, his interest in polymer science involves investigating the behavior and applications of polymers in different environments. Through his work, Mohammed seeks to contribute to the development of advanced materials that can address contemporary engineering challenges and support sustainable technological advancements. His academic background and ongoing research reflect a commitment to pushing the boundaries of material science and engineering.

Research Skills

Mohammed Abdulkedir Alfeki possesses robust research skills that underscore his potential as a leading researcher. His expertise in composite materials, nanotechnology, and polymer science is evidenced by his high-quality research outputs, including his notable publications on bamboo fiber-reinforced composites and photovoltaic performance. Proficient in advanced software such as CATIA V5, ANSYS, MATLAB, and OriginPro, he excels in 3D modeling and numerical analysis, crucial for his research on material properties and optimization. His ability to integrate theoretical knowledge with practical applications is reflected in his thesis work and ongoing projects. Additionally, Mohammed’s participation in various training programs, including those on energy modeling and global entrepreneurship, highlights his commitment to continuous learning and adaptability. His strong analytical skills, combined with his proficiency in utilizing sophisticated tools and methodologies, position him as a valuable asset in his field.

Award and Recognition

Mohammed Abdulkedir Alfeki has shown exceptional academic and research prowess in his field, earning recognition for his achievements. He completed his Master of Science in Mechanical Design Engineering with an excellent thesis on bamboo fiber-reinforced composites, reflecting his innovative approach to material science. His research on the mechanical and physical properties of composites has been published in the journal Advances in Materials Science and Engineering. Additionally, Mohammed has presented his work at international conferences, such as the International Conference on Environmental Protection and Energy, highlighting his contributions to photovoltaic performance studies. His commitment to professional growth is further evidenced by numerous certifications, including those from the British Council and Arizona State University. These accomplishments underscore his dedication to advancing engineering research and education, positioning him as a noteworthy candidate for awards recognizing research excellence and innovation.

Conclusion

Mohammed Abdulkedir Alfeki is a strong candidate for the Research for Best Researcher Award. His academic achievements, relevant research interests, and commitment to professional development demonstrate his potential. By focusing on enhancing research impact, expanding international collaborations, and diversifying his research topics, he could further strengthen his profile and increase his chances of receiving the award.

Publication Top Notes

Water Absorption, Thermal, and Mechanical Properties of Bamboo Fiber with Chopped Glass Fiber Filler-Reinforced Polyester Composites

  • Journal: Advances in Materials Science and Engineering
  • Year: 2024
  • Volume: 2024
  • Article ID: 6262251
  • Authors: M.A. Alfeki, E.A. Feyissa
  • Citations: 1