This book presents select proceedings of 4th Biennial International Conference on Future Learning Aspects for Mechanical Engineering (FLAME 2024). It covers the fluid and thermal engineering areas such as heat transfer enhancement and heat transfer equipment, heat transfer in nuclear applications, microscale and nanoscale transport, multiphase transport and phase change, multi-mode heat transfer, numerical methods in fluid mechanics and heat transfer, refrigeration and air conditioning, thermodynamics, space heat transfer, transport phenomena in porous media, turbulent transport, theoretical fluid dynamics, experimental fluid dynamics, computational fluid dynamics, turbomachinery and fluid power, etc. This book is a useful reference guide for researchers and professionals in thermal and fluid engineering.
Chapter 1.Natural Convection Heat Transfer Enhancement.
Chapter
2.Single Gas Bubble Rising in Liquid Column.- Chapter 3.Density Determination
in Microchannel Cooling.- Chapter 4.Effect of Flow Maldistribution on Thermal
Performance.- Chapter 5.Water-Cooled Mini-channel Heat Sink.- Chapter
6.Thermodynamic Analysis of Biomass Gasification-Based Power Generation
System.- Chapter 7.Fluid machinery and Fluid Power.- Chapter 8.Air-Film Blade
Cooled Gas Turbine Cycle.- Chapter 9.Atmospheric flows and Highly Confined
Flow.- Chapter 10.Biological heat and mass transfer.- Chapter 11.Thermal and
Hydrological Properties During Water Flow.- Chapter 12.Ultra-Fast Cooling of
Flat Metal Pate.- Chapter 13.Combustion and reactive flows.- Chapter
14.Induce Draught in Cold Storage.- Chapter 15.Thermoelectric Generator Unit
for Efficient Waste Heat Recovery.- Chapter 16.Electronic and photonic
cooling.- Chapter 17.Pool Boiling Using Nanofluids.- Chapter 18.Fluid Flow
Pattern in Cryogenic Radial Turbine.- Chapter
19. A Thermal Analysis of Herbs
Drying.
Dr. Basant Singh Sikarwar is a Postdoctoral Fellow at Iowa State University. He has a Ph.D. from the Indian Institute of Technology Kanpur and an M.Tech from the Indian Institute of Technology Roorkee, India. With over 19 years of experience in thermo-fluids, his research focuses on phase change and interfacial phenomena, with applications in electronic cooling, condensation, droplet dynamics, heat pipes, and water harvesting. During his Ph.D., he developed a condensation model and finite volume-based CFD solver, which his research group at Amity University uses for advanced research in this area. He has published 75+ SCI/Scopus-indexed journal papers and 100+ conference papers, completed two DST projects, and currently leads three government-funded projects in his lab. He supervises seven Ph.D. candidates and has guided several others. Dr. Sikarwar has chaired multiple conferences and serves on editorial boards of reputed journals and book series. He is a Guest Editor for many reputed journals and actively consults for various industries. Since 2015, he has been a professor and head of the Department of Mechanical Engineering at Amity University, Noida. Dr. Sanjeev Kumar Sharma completed Ph.D. (Thermal Engineering) from Indian Institute of Technology IIT(ISM) Dhanbad. He did his M.Tech. (Energy Management) from IIT Delhi and B.Tech. (Mechanical Engineering) from G. B. Pant University of Agriculture and Technology, Pant Nagar. For the last twenty years, he has been involved in experimental and theoretical study of many aspects of novel desalination techniques, food-energy-water nexus, boiling and condensation. During his Ph.D. he developed a novel desalination device to fulfil the requirement of potable water. He published more than 30+ SCI/Scopus-indexed journals and conference articles on novel desalination techniques, food-energy-water nexus, boiling, and condensation. He has also been the author of one book and the inventor of two Indian patents. Dr. Krishna Mohan Singh is working as a professor with the Department of Mechanical Engineering at the Indian Institute of Technology, Roorkee. Before this position, he worked as an assistant professor, Shinshu University Nagano Japan. He, also, worked as a research assistant at Queen Mary, University of London, London, UK. He completed his Ph.D. at the Indian Institute of Technology Kanpur in 1993. His research areas are fluid dynamics: numerical simulation of turbulent flows in complex geometries; computational mechanics: parallel numerical algorithms for continuum problems, mesh-free methods; modeling, simulation and CAD of thermo-fluid and multiphysics systems (energy systems). He got Hitachi Research Visit Programs (HIVIPS) Fellowship, Hitachi Research Group, Hitachi Ltd., Japan. He has published more than 100 research papers in various national and international journals of high repute.
