Karthic SV | Energy | Best Researcher Award

Published-on by Indian Scientist

Dr. Karthic SV | Energy | Best Researcher Award

Madras Institute of Technology, India

Author Profile

SCOPUS

🎓 EARLY ACADEMIC PURSUITS

Dr. Karthic S. V began his academic journey with a Bachelor’s degree in Mechanical Engineering (2009–2013), followed by a Master’s in Thermal Engineering (2013–2015). His academic excellence and deep inclination toward sustainable energy systems led him to pursue a Ph.D. at the prestigious Madras Institute of Technology, Anna University, specializing in Hydrogen Dual Fuel Engine Research. His formative years laid the foundation for his enduring contributions to clean energy and combustion research.

🏢 PROFESSIONAL ENDEAVORS

Dr. Karthic is currently serving as a Test Engineer (R&D) in the electric vehicle domain, with a strong focus on Battery Thermal Management Systems (BTMS). He brings a multidisciplinary approach to testing, automation, thermal analysis, and simulation using platforms like ANSYS CFD, AVL Indsmart, and CONVERGE CFD.

His career has seen impactful stints:

  • Test Engineer – Designing simulation models for BTMS in EVs, evaluating nanofluid coolants, and managing emission tests.

  • Research Assistant – At the Hydrogen production plant and Combustion Engine Lab, MIT, where he was involved in lab setups and experimental methodologies.

  • Research Scholar – Engaged in full-time hydrogen combustion research, he developed an advanced test bench for hydrogen-based dual fuel engines.

📚 CONTRIBUTIONS AND RESEARCH FOCUS IN ENERGY

Dr. Karthic’s core research revolves around Hydrogen Dual Fuel Engines, Alternative Fuels, Emission Control, and BTMS using Nanofluids. He has consistently integrated Artificial Neural Networks (ANN) and simulation-based optimization techniques in engine and battery thermal systems. His work targets high thermal efficiency, lower emissions, and innovative cooling mechanisms for sustainable mobility and energy conversion.

Notable areas of contribution include:

  • Hydrogen Biofuel-based RCCI Engines

  • Methanol & Waste Cooking Oil in CRDI Systems

  • Hydrogen enrichment and knock-limiting strategies

  • AI-based modeling for combustion performance

🏅 ACCOLADES AND RECOGNITION

  • Recognized as a leading early-career hydrogen fuel researcher

  • His publications in top-tier journals have earned him international repute

  • Acknowledged for the development of a custom engine test bench for hydrogen combustion

  • Esteemed by faculty and researchers for his interdisciplinary methodology and innovation

🌍 IMPACT AND INFLUENCE

Dr. Karthic’s research has a significant technological and environmental impact. By focusing on cost-effective, scalable, and application-oriented solutions, his work advances clean energy technologies aligned with UN SDG 7 (Affordable and Clean Energy) and SDG 13 (Climate Action). His studies on renewable-fueled engines and emission optimization hold the potential for industrial application in both automotive and power sectors.

His influence extends to mentoring, technical collaborations, and contribution to the growing body of AI-integrated combustion science.

🧭 LEGACY AND FUTURE CONTRIBUTIONS

Dr. Karthic aims to revolutionize clean mobility through:

  • Integrating hydrogen fuel technologies with real-time AI simulations

  • Creating next-gen BTMS for safer and more efficient electric vehicles

  • Expanding his research to green hydrogen production and fuel cell integration

  • Training the next generation of engineers and researchers in sustainable power systems

His vision is to bridge the gap between academic research and real-world energy solutions.

 ✅CONCLUSION

Dr. Karthic S. V exemplifies the synergy of research brilliance, industrial pragmatism, and environmental foresight. With a strong footing in thermal sciences, hydrogen fuel, and electric vehicle systems, his contributions are poised to reshape clean energy landscapes. Through his continued innovations, collaborative efforts, and future-forward thinking, Dr. Karthic stands as a beacon of sustainable engineering and energy research.

🔬NOTABLE PUBLICATION:

Title: Experimental investigations on hydrogen biofueled reactivity controlled compression ignition engine using open ECU
Author: Karthic, S.V., M. Senthil Kumar
Journal: ENERGY
Year: 2021

Title: Split injection strategies based RCCI combustion analysis with waste cooking oil biofuel and methanol in an open ECU assisted CRDI engine
Author: Karthic, S.V., et al.
Journal: FUEL
Year: 2022

Title: Assessment of hydrogen-based dual fuel engine on extending knock limiting combustion
Author: Karthic, S.V., M. Senthil Kumar, et al.
Journal: FUEL
Year: 2020

Title: An assessment on injection pressure and timing to reduce emissions on diesel engine powered by renewable fuel
Author: Karthic, S.V., M. Senthil Kumar, et al.
Journal: Journal of Cleaner Production
Year: 2020

Title: Experimental assessment of effects of n-Butanol on performance, emission, and combustion characteristics of Mahua oil fueled Reactivity Controlled Compression Ignition (RCCI) engine
Author: Selvaraju, Karthic
Journal: Emission Control Science and Technology
Year: 2020

Swati Gangwar | Chemical Engineering | Best Researcher Award

Published-on by Indian Scientist

Swati Gangwar | Chemical Engineering | Best Researcher Award

Indian Institute of Technology, Jammu, India

Author Profile

🎓 EARLY ACADEMIC PURSUITS

Ms. Swati Gangwar began her academic journey in Chemical Engineering with distinction, graduating with first-class honors from the Dr. Ambedkar Institute of Technology for Handicapped (AITH), Kanpur, in 2016. Her strong foundation in core engineering principles was further enhanced during her Master’s degree at Harcourt Butler Technical University (HBTU), Kanpur, where she specialized in advanced heat and mass transfer systems, graduating in 2019.

🏢 PROFESSIONAL ENDEAVORS

Currently a Research Scholar (PhD) at the Indian Institute of Technology (IIT) Jammu, Ms. Gangwar is an emerging scholar in the Department of Chemical Engineering. Her work is focused on natural circulation systems, heat transfer, and passive cooling technologies—an area that intersects both fundamental research and sustainable engineering applications.

📚 CONTRIBUTIONS AND RESEARCH FOCUS ON CHEMICAL ENGINEERING

Ms. Gangwar’s research revolves around single-phase natural circulation loops (NCLs) and thermosyphon heat transport devices (THTDs), especially for innovative applications like indoor solar cooktops and passive nuclear safety systems. Her studies contribute to the design and analysis of intrinsically safe, energy-efficient thermal systems. With a blend of experimental validation, analytical modeling, and CFD simulation, she has significantly advanced understanding in this niche but vital area.

Key research areas:

  • Indoor solar cooktops

  • Thermosyphon heat transport devices

  • Single-phase natural circulation

  • Passive cooling systems for SMRs

  • Stability analysis of circulation loops

🏅 ACCOLADES AND RECOGNITION

Swati Gangwar’s research has been published in reputed SCI/Scopus-indexed journals:

  • Nuclear Engineering and Design (2025, 2 publications)

  • IEEE Electrification Magazine (2024)

  • Heat Transfer Engineering Journal (2025, Accepted)

  • ASTFE Digital Library (2024)

She has co-authored papers with renowned scientists such as Dr. P.K. Vijayan, and her work is increasingly cited in the field of passive thermal system design.

🌍 IMPACT AND INFLUENCE

Her work has direct implications for energy sustainability, nuclear safety, and renewable energy. Applications include:

  • Passive cooling systems in Small Modular Reactors (SMRs)

  • Solar-powered thermal reboilers and space-heating

  • Decay heat removal in post-Fukushima nuclear design

  • Cooling for electronic devices and transformers

  • Development of eco-friendly cooking systems

Her contributions offer scalable and sustainable solutions for energy needs, particularly relevant to rural electrification, renewable integration, and disaster-resilient infrastructure.

🧭 LEGACY AND FUTURE CONTRIBUTIONS

Swati envisions a future where passive systems become the cornerstone of sustainable design. Her ongoing PhD work is laying the groundwork for:

  • Robust modeling frameworks for CNCLs

  • Development of IMT-PDHRSs for accident-resilient reactors

  • Integration of solar thermal systems in residential and industrial sectors

Her legacy will be defined by bridging theoretical thermohydraulics with real-world energy solutions.

 ✅CONCLUSION

Swati Gangwar is a dynamic and driven researcher whose work is advancing the frontiers of chemical engineering, renewable energy, and passive heat transport. With a clear commitment to both academic rigor and practical application, she is set to become a leading innovator in sustainable thermal systems.

 🔬NOTABLE PUBLICATION:

Title: Insights on the steady-state performance of single-phase natural circulation loops

Authors: Swati Gangwar, Pallippattu Krishnan Vijayan (P.K. Vijayan), Goutam Dutta

Journal: Nuclear Engineering and Design

Year: 2025