Prof. Tomáš Dlouhý exemplifies the spirit of innovation through his pioneering work in industrial fuel combustion, renewable energy integration, and carbon capture technologies. With a career spanning over four decades at the Czech Technical University in Prague, he has consistently pushed the boundaries of engineering science, developing practical solutions for cleaner and more efficient energy systems. His ability to translate academic research into industrial applications positions him as a highly deserving candidate for the Excellence in Innovation Award.

🔹 Education & Experience 

Prof. Tomáš Dlouhý’s academic career spans decades of dedicated learning and innovation 🎓. He graduated with a Dipl.Ing. degree from CTU Prague in 1984 📐, specializing in mechanical engineering. Driven by a deep interest in combustion, he earned his Ph.D. in 1993 at CTU Prague 🔥. His academic curiosity led him to the UK, where he completed a postgraduate diploma at Glasgow Caledonian University in 1998 🌍. His teaching and research career advanced steadily—he was appointed Associate Professor in 2005 and Full Professor by 2021 🏅. Over the years, he has taken on complex industrial and environmental challenges, mentoring students and contributing actively to Czech and international research scenes. With a mix of theoretical and applied expertise, Prof. Dlouhý has completed 9 research projects, 36 industry collaborations, and contributed to over two dozen high-impact journal publications 📊. His extensive knowledge and hands-on experience make him a distinguished figure in combustion engineering and energy systems ⚙️.

🔹 Professional Development 

Prof. Dlouhý’s professional journey is a testament to continual development and impactful research 🔬. Over four decades, he has transformed from a passionate student into a leading voice in industrial fuel combustion and sustainable energy solutions ♻️. His collaboration with international institutions such as TU Stuttgart 🇩🇪 and NTU Trondheim 🇳🇴 highlights his commitment to cross-border research excellence. He has authored and co-authored several peer-reviewed studies and books 📘, making his mark in the academic publishing world. With three patents under his belt and 36 consultancy projects, he has bridged the gap between academia and real-world industrial needs 🏭. Prof. Dlouhý’s work on innovative drying techniques, CCS feasibility, and boiler condensation methods is helping shape the future of energy technology ⚡. He actively engages in teaching and mentoring, nurturing the next generation of engineers and scientists 👨‍🔬. His ability to integrate theory with practice defines his professional growth and ongoing contributions 🚀.

🏅 Awards and Recognitions

• 🏅 Full Professorship at Czech Technical University in Prague (2021)

• 🎓 Ph.D. in Combustion from CTU Prague (1993)

• 🌍 Postgraduate Diploma, Glasgow Caledonian University (1998)

• 📚 Published 25+ peer-reviewed journal articles (Scopus-indexed)

• 📕 Author of 2 books (including a chapter contribution)

• 🧪 Holder of 3 patents related to energy and combustion

• 🔬 Completed 9 major academic research projects

• 🏭 Led 36 industrial consultancy and innovation projects

• 🤝 Collaborated with international research institutions TU Stuttgart & NTU Trondheim

• 🏆 Nominee for Best Innovation Award – International Chemical Scientist Awards

🔬 Research Focus

Prof. Tomáš Dlouhý’s research is deeply rooted in sustainable energy engineering, focusing on industrial fuel combustion 🔥, biomass utilization 🌿, and renewable energy integration ☀️. His work addresses critical global concerns such as optimizing combustion systems, improving energy efficiency, and reducing environmental impact. He specializes in advanced drying techniques for biomass fuels, condensing technologies for boilers 💧, and carbon capture and storage (CCS) for coal power plants 🌫️. With a strong emphasis on thermodynamic efficiency and cleaner energy alternatives, his contributions help reduce carbon emissions and promote renewable sources 💡. His collaborative research with European institutions aims to develop scalable, energy-efficient methodologies for future power systems 🌍. His recent publications explore biomass drying innovations and combustion air humidification effects, showcasing his focus on theoretical and practical advancements 🔬. Prof. Dlouhý’s research is crucial for transitioning toward cleaner energy technologies and optimizing industrial fuel applications across sectors ♻️.

Publications & Citations 📚

📄 “Effect of combustion air humidification on the operation of a biomass boiler – Theoretical analysis” – Heliyon, 2025 | 📅 Published: 2025 | 🔁 Cited by: 0 | ✍️ Authors: Dlouhý, T.; Havlík, J.

📄 “Improving the energy effectivity of biomass drying for utilisation in energy systems by combining convective and contact drying” – Drying Technology, 2024 | 📅 Published: 2024 | 🔁 Cited by: 0 | ✍️ Authors: Havlík, J.; Dlouhý, T.

🔍 Conclusion:

Prof. Dlouhý’s work is not only academically rigorous but also practically transformative. His innovations in sustainable energy engineering directly contribute to reducing carbon footprints and optimizing industrial systems globally. His passion for solving real-world energy problems through novel technologies and collaborative research makes him an ideal recipient of the Excellence in Innovation Award.