About the Book
Nanofluids for Large-Scale Industrial Applications examines the challenges and current progress towards large-scale industrial application of nanofluids, summarizing and bringing together varied current research strands and providing potential solutions pertaining to the scientific, economic, and social barriers that currently exist.
Opening with an introduction to nanofluid synthesis, types, and properties, this book traverses the potential large-scale applications and commercialisation of nanofluids in industrial heating/cooling, solar energy systems, refrigeration systems, automotive systems, and various chemical processes and manufacturing systems.
This book provides knowledge of a vast area of applications of nanofluids in industries. Thus, it also has potential to encourage and trigger the minds of researchers to discover more about nanofluids, investigate the gaps, overcome the challenges, and provide future directions for newer applications and develop nanofluids further. The book is written chiefly for graduate/postdoc level students and researchers/academics teaching or studying in chemical and thermal engineering and who are focused on heat transfer enhancement, thermal energy, nanofluids, and nano-enhanced energy systems such as solar thermal systems.
Table of Contents:
Section I: Fundamental Aspects of Nanofluids for Industrial Applications
1. Large scale preparation techniques of nanofluids
2. Properties essential for large scale applications of nanofluids
3. Implications of nanofluids performance: experimental and CFD studies
Section II: Industrial Application of Nanofluids
4. Nanofluids for industrial heating and cooling
5. Nanofluids for solar photovoltaic systems
6. Nanofluids for solar thermal systems
7. Nanofluids for refrigeration systems
8. Nanofluids for automotive applications
9. Nanofluids for separation processes
10. Nanofluids for catalysis11. Nanofluids for manufacturing
12. Nanofluids for enhanced oil recovery
13. Nanofluids for electrical applications
Section III: Sustainability, Challenges and Future Prospects
14. Nanofluids for energy conservation and sustainable development
15. Environment and health impacts of nanofluids
16. Economic aspects of large-scale nanofluid applications
17. Barriers of nanofluid commercialization and implementation
18. Challenges for industrial applications of nanofluids
19. Future prospects of industrial applications of nanofluids
About the Author :
Dr. Bharat A. Bhanvase is currently working as Professor and Head in Chemical Engineering Department at the Laxminarayan Institute of Technology, RTM Nagpur University, Nagpur, Maharashtra, India. His research interests focus on Wastewater Treatment, Solid Waste Management, Cavitation based processes for production, Nanomaterials and Nanocomposites, Process Intensification, Microfluidics, and Nanofluids. He obtained Ph.D. in Chemical Engineering from University of Pune. He has written 29 book chapters in internationally renowned books, 3-edited book. Further, he is a recipient of the Young Scientists (Award) start- up research grant from Science and Engineering Research Board, New Delhi (India) in the year 2015. Also he was the recipient of Best Scientist Award from Rashtrasant Tukadoji Maharaj Nagpur University in 2017. Divya Prakash Barai works in the Department of Chemical Engineering at Laxminarayan Institute of Technology, Rashtrasant Tukadoji Maharaj Nagpur University, Nagpur, India. Gaweł Żyła is Associate Professor on Rzeszow University of Technology, Poland. His areas of research interests relate to experimental studies on rheology, thermal conductivity, mass density, isobaric heat capacity, surface tension and other physical properties of nanofluids and ionic liquids. He is co-author of almost 70 scientific papers published in international journals. He has been Visiting Professor on Mahatma Gandhi University (India), Université de Rennes 1 (France), Universidade de Vigo (Spain), Lund University (Sweden), University of Novi Sad (Republic of Serbia) and Instituto Nazionale di Ottica (Italy)
Dr. Zafar Said is currently working as a Distinguished Associate Professor in the
Department of Mechanical and Aerospace Engineering at the United Arab Emirates
University, UAE. He received his doctoral degree in Mechanical Engineering from
the University of Malaya, Malaysia, and completed his postdoctoral research at
Khalifa University, UAE. Dr. Said is a recognized leader in energy technology,
nanofluids, and sustainable energy. His major areas of interest include heat
transfer, solar energy systems, and advanced thermofluids. His research focuses on
battery thermal management, enhancement of solar collectors using nanofluids
and turbulators, and the development of stable nanorefrigerants and
nanolubricants. He also applies artificial intelligence and machine learning to
predict thermophysical properties and optimize energy systems. He is the recipient
of several prestigious awards, including the Khalifa Award for Education as
Distinguished University Professor (2025), the Future Pioneer Award in
Sustainability (2025), and Best Academic Research at the 13th Dubai Award for
Sustainable Transport (2024). He has also received the Research and Innovation
Award from the UAE Ministry of Energy and Infrastructure (2022) and First Place in
Scientific Research at the Excellence and Creative Engineering Award (2023) by the
Society of Engineers, UAE. In recognition of his contributions, he has been
consistently ranked among the world’s top 2% of scientists in the field of energy by
Elsevier BV and Stanford University. In addition to his academic duties, he actively
serves in editorial roles for several international journals and is a frequent keynote
speaker at global conferences.
