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The THA FOCUS series shines the spotlight on novel research to inspire engineering and scientific communities with exciting advancements in applied thermal fluids built on the fundamentals of thermodynamics, heat transfer, and fluid mechanics.
Thermodynamics Fluid Flow Heat TransferApplications AI and Machine Learning Research Methodologies Industrial R&D and Equipment Physical Properties History
Basic Concepts Conduction Convection RadiationMass Transfer
Basic principles of thermal radiation Combined heat transfer by radiation, conduction, and convection Inverse problems in radiation transfer Microscale/nanoscale radiative heat transfer Radiation transfer between the surfaces through a non-participating medium Radiation transfer in emitting, absorbing and scattering mediaPhase Change Heat Transfer Micro/Nano Scale Heat Transfer Electronics Cooling Experimental Methods in Heat Transfer Physical Properties
Radiation transfer problems in nature and engineering Radiation transfer theory and the computational methodsRadiative heat transfer(open in a new tab)
Computational methods for radiative transfer in disperse systems Discrete ordinates and finite volume methods Methods of spherical harmonics Monte Carlo method Zonal method Computational methods for radiative transfer in disperse systems(open in a new tab) Discrete ordinates and finite volume methods(open in a new tab) Monte Carlo method(open in a new tab)Spectral radiative properties of disperse systems: theoretical modeling and experimental characterization Spectral radiative properties of gases and plasma: theoretical models and experimental data DEEP ABSORPTION OF A COLLIMATED RADIATION IN HIGHLY SCATTERING MEDIA(open in a new tab) Radiation transfer in emitting, absorbing and scattering media(open in a new tab) Radiation transfer theory and the computational methods(open in a new tab)