Chang Hyun Sohn | Computational Fluid Dynamic | Best Researcher Award

Prof Chang Hyun Sohn | Computational Fluid Dynamic | Best Researcher Award

Professor, Kyungpook National University, South Korea

Dr. Chang-Hyun Sohn is a distinguished Professor of Mechanical Engineering at Kyungpook National University (KNU), South Korea. 🎓 With expertise in Computational Fluid Dynamics (CFD), Flow-Induced Vibration, and Particle Image Velocimetry (PIV), he has made significant contributions to thermal-fluid sciences. 🌊 He has served as a Visiting Professor at the University of Cambridge and the University of Tennessee and previously worked at the Agency for Defense Development (ADD), contributing to small jet engine development. ✈️ His extensive research output includes 134 journal papers, 64 conference proceedings, 37 books & reports, and 5 patents. 📚 Recognized with prestigious awards, he has held leadership roles in KSME, KASE, and KSCFE. 🔬 His influence spans academia, industry, and engineering societies, making him a pioneer in fluid dynamics research. 🌍

Profile

scholar

Education 🎓

Ph.D. in Mechanical Engineering, KAIST, South Korea (1991) 🏆 Focused on thermal-fluid flow and CFD modeling, advancing numerical simulations in fluid dynamics. 💡M.E. in Mechanical Engineering, KAIST, South Korea (1985) 📊 Specialized in computational modeling and flow analysis, contributing to advanced engineering applications. 🚀B.E. in Mechanical Engineering, Kyungpook National University, South Korea (1983) 🔧 Developed a strong foundation in mechanical systems, thermodynamics, and aerodynamics, shaping future research in flow dynamics. 🌪️

Professional Experience 🏢

Professor, Kyungpook National University (1994 – Present) 👨‍🏫 Leading fluid dynamics research and mentoring future engineers. 🎯Team Manager, Agency for Defense Development (ADD) (1991 – 1994) 🛩️ Spearheaded small jet engine development and military propulsion technology. 💨Visiting Professor, University of Cambridge (1996 – 1997) 🇬🇧 Collaborated on aerodynamic research in turbulence and flow modeling. 📈Visiting Professor, University of Tennessee (2005 – 2006) 🇺🇸 Advanced CFD applications in thermal-fluid sciences. 🔥Vice Dean, College of Engineering, KNU (2007 – 2008) 📌 Strengthened academic programs in mechanical and automotive engineering. 🏗️Director, Industrial-University Consortium Center (2007 – 2008) 🔄 Enhanced industry-academic collaboration for applied mechanical research. 🏭

Awards & Honors 🏆

Outstanding Paper Award, Korean Society for Computational Fluid Engineering (2010) 📜 Recognized for excellence in CFD-based thermal-fluid research. 🔥Best Paper Award, Korean Society of Mechanical Engineers (2010) ✨ Acknowledged for groundbreaking contributions to mechanical engineering innovations. 🚗Advisor of Winning Team, National Fluid Engineering Competition (2010) 🏅 Mentored students in a national-level fluid mechanics challenge. 🎯Outstanding Portfolio Instructor, KNU (2010) 👏 Honored for exceptional teaching in mechanical and aerospace engineering. 📖Invited Speaker, IBCAST (2016) & FMFP (2017) 🎤 Shared insights on fluid mechanics, CFD, and turbulence modeling in global conferences. 🌎

Research Focus 🔬

Computational Fluid Dynamics (CFD) 🖥️ Developing high-precision simulations for thermal-fluid flows, aerodynamics, and turbulence modeling. 🌪️Particle Image Velocimetry (PIV) Measurement 📸 Enhancing fluid flow visualization techniques for experimental validation of CFD models. 💡Flow-Induced Vibration (FIV) 🔊 Investigating structural interactions with fluid flow for safer, more efficient engineering systems. 🏗️Aerospace & Automotive Applications 🚀 Designing advanced propulsion systems, aerodynamic vehicles, and jet engines. ✈️Thermal-Fluid System Optimization ⚡ Improving cooling systems, energy efficiency, and industrial heat transfer mechanisms. 🔥

Publications

Investigating the Power Extraction of Applying Hybrid Pitching Motion on a Wing with Leading and Trailing Flaps

Enhanced Power Extraction via Hybrid Pitching Motion in an Oscillating Wing Energy Harvester with Leading Flap

Wetting performance analysis of porosity distribution in NMC111 layered electrodes in lithium-ion batteries using the Lattice Boltzmann Method

Reduction of delivery pressure fluctuations in a gerotor pump

Numerically Investigating the Energy-Harvesting Performance of an Oscillating Flat Plate with Leading and Trailing Flaps

Conclusion

Dr. Chang-Hyun Sohn is an outstanding candidate for the Best Researcher Award, given his exceptional contributions to CFD, leadership in mechanical engineering, and innovation in applied research. His strong publication record, international impact, and industry collaborations make him highly suitable for this prestigious recognition. Further engagement in cutting-edge fields like AI-enhanced CFD and sustainability applications could further strengthen his position as a global leader in the field.

Dhanraj Shinde | Microbial fuel cells | Best Researcher Award

Dr. Dhanraj Shinde | Microbial fuel cells | Best Researcher Award

Dr. National Chemical Laboratory, Pune, Maharastra, India

Dr. Dhanraj B. Shinde, with over 15 years of research experience, is a Ramalingaswami fellow and Assistant Professor at the National Chemical Laboratory, India. He specializes in nanomaterials synthesis, proton conductive membranes, chemical vapor deposition, and energy storage devices. He has held postdoctoral positions at New Mexico State University, USA, and Monash University, Australia, contributing significantly to graphene production and microbial fuel cells. Dr. Shinde earned his Ph.D. in Physical and Materials Chemistry from the University of Pune, India. His numerous accolades include the Ramanujan Fellowship and the Australian Alumni Research Grant.

 

Professional Profiles:

Education🎓

Ph.D. in Physical and Materials ChemistryNational Chemical Laboratory (NCL), University of Pune, India (2008 – 2013)Thesis: “Electrochemical Synthesis and Functionalization of Carbon-based Nanomaterials”Supervisor: Dr. K. Vijayamohanan, IISER Tirupati, India🎓 M.Sc. in ChemistryYeshwant College, Department of Chemistry, Swami Ramanand Teerth Marathwada University Nanded, Maharashtra, India (May 2006)🎓 B.Sc. in ChemistryMahatma Gandhi College, Ahmedpur, Swami Ramanand Teerth Marathwada University, Nanded, Maharashtra, India (May 2004)

Fellowships and Awards

🏅 Fellowships:

Senior Research Fellowship, CSIR, New Delhi (January 2010 to December 2012)Junior Research Fellowship, CSIR, New Delhi (January 2008 to December 2009)Ramanujan Fellowship, SERB (2021)Ramalingaswami Re-entry Fellowship, DBT (2021)

🏆 Awards:

KRISHNAN AWARD for Best Published Research Paper in Physical Chemistry / Materials Science (2011 & 2013)Best Thesis Award “KEERTHI SANGORAM MEMORIAL ENDOWMENT AWARD” (2012)Young Associate Award, Maharashtra Academy of Sciences (2019)Australian Alumni Research Grant (2022)

Objective🚀

Career Goal: Intend to build a career in a leading institution with committed and dedicated people, helping to explore my potential. Willing to work as a key player in a challenging and creative environment.

Research Experience🔬

15+ Years of Research Experience:Nanomaterials synthesisProton conductive membranesChemical vapor depositionRedox flow batteriesFuel cells and energy storage devices

Current Position🏢

National Chemical Laboratory, IndiaRamalingaswami Fellow and Assistant Professor, A-CSIR (May 2021 – Present)Project: High power density microbial fuel cells: Conversion of waste into electricity and chemicalsGrant: Australian Alumni research grant to develop cost-effective microbial fuel cells (2022)

Previous Positions🌐

New Mexico State University, USAPostdoctoral Research Associate (November 2016 – 2020)Large area single crystalline graphene production using atmospheric pressure chemical vapor depositionBreakthrough proton conductive membranes based on two-dimensional materials for microbial fuel cells and redox flow battery applications🌏 Monash University, AustraliaPostdoctoral Research Associate (December 2013 – 2016)High-quality graphene manufacturing and upscaling through flow chemistry approachesLarge area graphene oxide membranes for water desalination

Strengths for the Award:

Extensive Research Experience: Over 15 years of hands-on experience in advanced material synthesis and energy storage technologies.Innovative Contributions: Pioneering work in microbial fuel cells and cost-effective solutions for renewable energy.Proven Track Record: Multiple prestigious fellowships and awards showcasing a history of excellence and significant impact in the field.Strong Academic and Professional Background: Advanced degrees and notable positions in esteemed institutions worldwide.

Areas for Improvement:

Industry Collaboration: Increasing collaborations with industry partners to translate research findings into commercial applications.Funding Acquisition: Securing additional funding to expand research capabilities and explore new avenues.Public Outreach: Enhancing efforts to communicate scientific discoveries to the general public and policymakers to foster greater understanding and support.

Conclusion:

Dr. Dhanraj B. Shinde is a highly accomplished researcher with a formidable background in nanomaterials, fuel cells, and renewable energy technologies. His extensive experience, coupled with a proven track record of innovation and excellence, makes him a strong candidate for the Best Researcher Award. With continued focus on industry collaboration, funding acquisition, and public outreach, Dr. Shinde is well-positioned to drive significant advancements in sustainable energy solutions.

✍️Publications Top Note :

Synergistic humidity-responsive mechanical motion and proton conductivity in a cationic covalent organic framework
Das, G., Shinde, D.B., Melepurakkal, A., El-Roz, M., Trabolsi, A.
ChemThis link is disabled.

Unique role of dimeric carbon precursors in graphene growth by chemical vapor deposition
Shinde, D.B., Chaturvedi, P., Vlassiouk, I.V., Smirnov, S.N.
Carbon Trends, 5, 100093

Exclusively Proton Conductive Membranes Based on Reduced Graphene Oxide Polymer Composites
Shinde, D.B., Vlassiouk, I.V., Talipov, M.R., Smirnov, S.N.
ACS Nano, 13(11), 13136–13143

Development of CdZn(SSe)2 thin films by using simple aqueous chemical route: Air annealing
Jagadale, S.K., Shinde, D.B., Mane, R.M., Mane, R.K., Bhosale, P.N.
Materials Today: Proceedings, 4(2), 363–368

Low temperature simple aqueous phase chemical synthesis and characterization of ZnO thin films
Shinde, D.B., Ghanwat, V.B., Khot, K.V., Mane, R.K., Bhosale, P.N.
Materials Today: Proceedings, 4(2), 119–125

Fabrication of carbon nanorods and graphene nanoribbons from a metal-organic framework
Pachfule, P., Shinde, D., Majumder, M., Xu, Q.
Nature Chemistry, 8(7), 718–724

Shear Assisted Electrochemical Exfoliation of Graphite to Graphene
Shinde, D.B., Brenker, J., Easton, C.D., Neild, A., Majumder, M.
Langmuir, 32(14), 3552–3559

Large-area graphene-based nanofiltration membranes by shear alignment of discotic nematic liquid crystals of graphene oxide
Akbari, A., Sheath, P., Martin, S.T., Bhattacharyya, D., Majumder, M.
Nature Communications, 7, 10891

Electrochemical preparation of nitrogen-doped graphene quantum dots and their size-dependent electrocatalytic activity for oxygen reduction
Shinde, D.B., Dhavale, V.M., Kurungot, S., Pillai, V.K.
Bulletin of Materials Science, 38(2), 435–442

Graphene nanoribbons as prospective field emitter
Khare, R., Shinde, D.B., Bansode, S., Pillai, V.K., Late, D.J.
Applied Physics Letters, 106(2), 023111