Jean-Baptiste Thomas | Climate Change | Best Researcher Award

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Dr. Jean-Baptiste Thomas | Climate Change | Best Researcher Award

KTH Royal Institute of Technology | Sweden

Dr. Jean-Baptiste E. Thomas is a bilingual and multinational researcher with expertise spanning France, the UK, the USA, and Sweden, specializing in industrial ecology, marine sustainability, and the blue bioeconomy. He earned a PhD in Industrial Ecology from KTH Stockholm in 2018, following an MSc in Sustainable Technology and a BSc in Geography from King’s College London. With a strong academic and professional trajectory, he has worked as a postdoctoral researcher at Kristineberg Marine Research Station and currently serves as a Researcher at KTH Stockholm, while also engaging in consultancy for life cycle and sustainability assessments. His research primarily addresses seaweed aquaculture, circular economy applications, nutrient loop closure, and environmental life cycle analysis. Dr. Thomas has published extensively in high-impact journals, achieving an h-index of 15 with over 24 peer-reviewed documents and more than 562 citations (Scopus). He has been invited as keynote and plenary speaker at major international conferences, including the International Seaweed Symposium (2025), and has led and co-led several Formas and EU-funded projects. Passionately involved in teaching and supervising students, he actively integrates sustainability and biodiversity into education. His contributions continue to shape sustainable marine biomass utilization, with global recognition as a leading voice in blue bioeconomy research.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

“Exploring the contribution of multi-use approach in fostering local blue economy: Insights from the Global South”

“Integrating biodiversity impacts into seafood life cycle assessments: pathways for improvement”

“Governance hurdles for expansion of low trophic mariculture production in Sweden”

“Life cycle environmental impacts of kelp aquaculture through harmonized recalculation of inventory data”

“Two decades of research on ocean multi-use: achievements, challenges and the need for transdisciplinarity”

“Life Cycle Assessment of a large commercial kelp farm in Shandong, China”

“Comparative life cycle assessment of conventional and novel microalgae production systems and environmental impact mitigation in urban-industrial symbiosis”

Manish Kumar | Renewable energy | Best Researcher Award

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Mr. Manish Kumar | Renewable Energy | Best Researcher Award

Delhi Technological University | India

Manish Kumar is a dedicated researcher in Mechanical Engineering with specialization in thermal engineering and sustainable energy systems. He earned his Bachelor of Technology in Mechanical Engineering from Dev Bhoomi Institute of Technology, Dehradun, and a Master of Technology in Thermal Engineering from Delhi Technological University, where he is currently pursuing his Ph.D. with fellowship. His doctoral research focuses on experimental investigations of compression ignition (CI) engine performance using ternary blends of biodiesel, diesel, and ethanol with fuel additives, contributing to the advancement of clean and efficient fuel alternatives. He has published over 15 research papers in reputed international journals and conferences, achieving an h-index of 8, with 242 citations indexed in Google Scholar. His work extensively explores biodiesel blends, nanoparticles as fuel additives, exhaust gas recirculation, and optimization techniques such as response surface methodology, Taguchi method, and artificial neural networks. He has presented at several international conferences and participated in seminars and faculty development programs on renewable and green energy technologies. Recognized for academic excellence, he has received awards including a Certificate of Appreciation for academic performance. His contributions highlight his commitment to sustainable energy research, aiming to reduce emissions and enhance engine efficiency for a greener future.

Profile: Google Scholar

Featured Publications

“RETRACTED: Enhancement of combustion characteristics of waste cooking oil biodiesel using TiO2 nanofluid blends through RSM”

“Optimization of engine performance parameters and exhaust emissions in compression ignition engine fueled with biodiesel-alcohol blends using taguchi method, multiple …”

“Effect of fuel injection pressure and EGR techniques on various engine performance and emission characteristics on a CRDI diesel engine when run with linseed oil methyl ester”

“Study the effect of optimized input parameters on a CRDI diesel engine running with waste frying oil methyl ester-diesel blend fuel with ZnO nanoparticles: a response surface …”

“Optimisation of an experimental and feasibility research on a CRDI diesel engine based on a blend of waste cooking oil and waste plastic oil using RSM: A value addition for …”

“Prediction of an optimum engine response based on different input parameters on common rail direct injection diesel engine: A response surface methodology approach”