2024 International Conference on Thermal Science and Engineering (TSE 2024) will be held from 24–26 May 2024 in Ningbo, China, organized by Hubei Zhongke Institute of Geology and Environment Technology, co-organized by Ningbo University and Xi'an Jiaotong University. This conference will bring together scientists from all around the world to discuss important recent developments in the field of thermal science and engineering, and related areas. Publication: The accepted full papers will be published in Journal of Physics: Conference Series, indexed by EI Compendex, Scopus, Inspec, etc. Excellent papers will be recommended directly to suitable SCI journals as follows: 1. Energies (ISSN: 1996-1073, IF: 3.2, Citescore: 5.5) 2. Buildings (ISSN: 2075-5309, IF: 3.8, Citescore: 3.1) 3. Materials (ISSN: 1996-1944, IF: 3.4, Citescore: 5.2) 4. Frontiers in Heat and Mass Transfer (ISSN: 2151-8629, IF: 1.8, Citescore: 2.9) The TSE 2024 conference committee sincerely invites you to attend the conference to share views and experiences of the recent advances and research achievements in the common research fields. Authors are welcome to submit by Submission System on conference website. After submission by the system, please send an email to tse@easyaca.com.cn and mark "Paper title+TEL" in the subject line of your email.

The 2024 International Conference on Thermal Science and Engineering (TSE 2024) accepts original and unpublished papers. Topics include but are not limited to:

• Fundamental fluid dynamics and flow physics
• Laminar and turbulent flow modeling and simulation
• Flow control and manipulation techniques
• Fluid-structure interactions and aeroelasticity
• Aerodynamics in automotive and aeronautical engineering
• Biofluid mechanics and hemodynamics
• Microfluidics and nanofluidics for lab-on-a-chip applications
• Multiphase flow dynamics in environmental and industrial systems
• Fluid flow in porous media and geological formations
• Hydrodynamic stability and transition to turbulence
• Flow in complex geometries and unconventional pathways
• Vortex dynamics and vortex-induced vibrations
• Computational fluid dynamics (CFD) advancements and applications
• Environmental fluid mechanics and hydraulics
• Flow measurement techniques and instrumentation
• Fluid dynamics in renewable energy systems (wind, hydro, tidal)
• Industrial fluid flow processes and machinery
• Incompressible and compressible flow behavior
• Non-Newtonian flow in processing industries
• Supercritical and rarefied flow studies
• Turbulence modeling, simulation, and experimentation
• Fluid flow in microgravity and space applications
• Aerodynamics and gas dynamics in thermal engineering
• Biofluid dynamics and heat transfer in physiological flows
• Boundary layers in fluid flow and heat transfer
• CFD modeling of combustion systems and reacting flows
• Convection heat transfer in fluid flows
• Developments in fluid flow measurement techniques
• Dynamics of complex fluids in thermal processes
• Electrohydrodynamics and magneto-hydrodynamics in thermal systems
• Fluid flow and heat transfer in microchannels and nanochannels
• Fluid-structure interaction in thermal systems
• Heat and mass transfer in porous media and particulate flows
• Heat transfer in single and multiphase flows
• Hydrodynamic stability and transition to turbulence
• Incompressible and compressible fluid flow in thermal sciences
• Laminar, transitional, and turbulent flow heat transfer
• Liquid metal cooling and heat transfer
• Microfluidics and lab-on-a-chip devices for thermal management
• Mixing and transport phenomena in thermal systems
• Non-Newtonian fluid flow and heat transfer
• Numerical modeling of fluid flow and heat transfer
• Optimization of fluid flow processes in thermal systems
• Phase transition and interfacial phenomena in fluid flows
• Supercritical fluid flow and heat transfer
• Thermal and flow management in miniaturized and embedded systems
• Thermal fluid interactions in natural and engineered processes
• Transport phenomena in energy systems
• Turbulent flow and heat transfer enhancement
• Viscous heating and cooling in fluid flows