Kaushik Kundu | Waste to Energy | Best Researcher Award

Mr Kaushik Kundu | Waste to Energy | Best Researcher Award

Mr Kaushik Kundu , IIT Delhi , India

Kaushik Kundu is a Ph.D. candidate in Chemical Engineering at IIT Delhi with a focus on sustainable energy solutions and advanced catalytic processes. Hailing from Kolkata, India, Kaushik has an impressive academic background, having completed his M.Tech in Fuel Engineering from IIT (ISM) Dhanbad and his B.Tech in Chemical Engineering from Maulana Abul Kalam Azad University of Technology. With expertise in hydrogen economy, reaction engineering, and machine learning, he combines rigorous scientific research with innovative approaches to clean energy. His work is recognized through various publications and awards, reflecting his commitment to advancing chemical engineering and sustainability.

Publication Profile

Google Scholar

Strengths for the Award

  1. Innovative Research Focus: Kaushik Kundu’s research is at the cutting edge of sustainable energy technologies. His work on catalyst development for CO2 hydrogenation and biomass gasification demonstrates a strong commitment to addressing global energy challenges and advancing clean energy solutions.
  2. High-Impact Publications: His publications in prestigious journals like the Chemical Engineering Journal and Fuel reflect his contributions to the field. The research covers significant areas such as catalyst optimization and biomass conversion, highlighting his expertise and impact.
  3. Recognition and Awards: Kaushik’s achievement of the Best Poster Award at IIChE-CHEMCON 2023 underscores his ability to present and communicate complex research effectively. This recognition is a testament to his innovative approach and research excellence.
  4. Strong Academic Background: With high academic performance in his M.Tech and current Ph.D. studies, Kaushik has demonstrated a solid foundation in chemical engineering, further supporting his suitability for the award.

Areas for Improvement

  1. Broader Impact and Collaboration: Expanding the scope of research to include collaborative projects with industry partners or international researchers could enhance the impact of his work and provide new avenues for innovation.
  2. Public Engagement: Increased engagement with the public and educational institutions could further promote the practical applications of his research and inspire future researchers.

Education

Kaushik Kundu is currently pursuing a Ph.D. in Chemical Engineering at IIT Delhi, with a CGPA of 8.45. He completed his M.Tech in Fuel Engineering from IIT (ISM), Dhanbad, graduating with a CGPA of 9.45. Prior to that, he earned his B.Tech in Chemical Engineering from Calcutta Institute of Technology, achieving a CGPA of 8.35. His educational journey showcases a strong foundation in chemical engineering and a deep commitment to advanced research in sustainable energy technologies.

Experience

Kaushik Kundu has garnered significant research experience through his current Ph.D. work on catalyst development for methanol and DME production via CO2 hydrogenation, funded by IIT Delhi and GAIL. His M.Tech dissertation involved studying the production of bio-coke from agricultural wastes. Additionally, he has participated in specialized courses and workshops, enhancing his skills in computational fluid dynamics and solid fuel processing. This diverse experience underpins his expertise in chemical engineering and commitment to sustainable energy solutions.

Awards and Honors

Kaushik Kundu was awarded Best Poster at IIChE-CHEMCON 2023 for his presentation on “Prediction and optimization of Syngas yield from Biomass using Multivariate LSTM.” This recognition underscores his innovative research and contributions to the field. His work has also been published in high-impact journals, reflecting his commitment to advancing chemical engineering and sustainable energy solutions. These accolades highlight his excellence in research and dedication to addressing global energy challenges.

Research Focus

Kaushik Kundu’s research focus includes hydrogen economy, catalytic conversion of biomass to clean energy, and kinetic modeling. His work spans areas such as the development of catalysts for CO2 hydrogenation, optimization of syngas production from biomass, and the application of machine learning in energy processes. Kaushik’s innovative approach combines theoretical and experimental methods to advance sustainable energy technologies, with a particular emphasis on improving the efficiency and effectiveness of clean energy solutions.

Publications Top Notes

Anand A, Gautam S, Kundu K, Ram L.C., Biocoke: A Sustainable Solution to Indian Metallurgical Coal Crisis, Journal of Analytical and Applied Pyrolysis, 171, 2023, 105977. 📄

Singh R, Kundu K, Pant K.K., Optimizing Zn/Ce ratio in ternary Cu-ZnO-CeO2 catalyst for CO2 hydrogenation to methanol, Chemical Engineering Journal, 479, 2024, 147783. 🔬

Kundu K, Kumar A, Kodamana H, Pant K.K., Obtaining high H2-rich syngas yield and carbon conversion efficiency from biomass gasification: From characterization to process optimization using machine learning with experimental validation, Fuel, 378, 2024, 132931. 🔋

Conclusion

Kaushik Kundu is a highly suitable candidate for the Best Researcher Award. His innovative research, high-impact publications, and recognition in the field of chemical engineering reflect his significant contributions to sustainable energy solutions. By addressing areas for improvement, such as broader collaboration and public engagement, he can further enhance his impact and continue to drive advancements in his field.

Despina Vamvuka | Solid Wastes | Best Research Article Award

Prof. Despina Vamvuka | Solid Wastes | Best Research Article Award

Despina Vamvuka, Technical University of Crete, Greece

👩‍🔬Despina Vamvuka is a Chemical Engineer and Professor at the School of Mineral Resources Engineering, Technical University of Crete. She specializes in Solid Fuels Beneficiation and Technology, focusing on clean energy production technologies. 🌱🔬

Profile

Scopus

Education

Despina Vamvuka holds a degree in Chemical Engineering and has built a robust academic foundation that underpins her extensive research and teaching career in the field of solid fuels and clean energy technologies. 🎓📘

Experience

Despina Vamvuka has significant experience in pyrolysis, combustion, gasification, and pollutant emission reduction from solid fuels. She is a seasoned educator and researcher with over 230 scientific publications and a profound involvement in both national and European research projects. 🌐👩‍🏫

Research Interests

Despina Vamvuka‘s research interests are diverse, encompassing solid fuels beneficiation, clean technologies for energy production, pyrolysis, combustion, gasification, and reduction of pollutant emissions from solid fuels. Her work aims at advancing sustainable energy solutions. 🌍⚡

Awards

Throughout her career, Despina Vamvuka has received numerous accolades and has been an integral part of several scientific committees and editorial boards. Her contributions to the fields of energy, environment, biofuels, and hydrogen are widely recognized. 🏆🌟

Publications

  1. “Valorization of a high-sulfur petroleum coke for energy and fuels through its co-processing with a forest waste, using concrete wastes for sulphur and carbon dioxide capture under mild conditions”
    • Journal: Thermochimica Acta
    • Year: 2024
    • Link
  2. “Adsorption of ammonium from wastewaters by an almond kernel derived biochar modified by potassium hydroxide or dolomite and activated by steam”
    • Journal: Environmental Advances
    • Year: 2024
    • Citations: 2
    • Link
  3. “Magnesium or bentonite modified almond kernel biochar for phosphate adsorption from contaminated water solutions”
    • Journal: Journal of Environmental Chemical Engineering
    • Year: 2024
    • Link
  4. “Gasification Performance of Barley Straw Waste Blended with Lignite for Syngas Production under Steam or Carbon Dioxide Atmosphere”
    • Journal: Applied Sciences (Switzerland)
    • Year: 2024
    • Link
  5. “Energy Recovery from Municipal Solid Waste through Co-Gasification Using Steam or Carbon Dioxide with Olive By-Products”
    • Journal: Energies
    • Year: 2024
    • Link