Thermal /Soret/ diffusion effects on interfacial mass transport rates
Abstract
It is shown that thermal (Soret) diffusion significantly alters convective mass transport rates and important transition temperatures in highly nonisothermal flow systems involving the transport of 'heavy' species (vapors or particles). Introduction of the Soret transport term is shown to result in mass transfer effects similar to those of 'suction' and a homogeneous chemical 'sink'. It is pointed out that this analogy provides a simple method of correlating and predicting thermal diffusion effects in the abovementioned systems.
- Publication:
-
PhysicoChemical Hydrodynamics
- Pub Date:
- 1980
- Bibcode:
- 1980PhChH...1..159R
- Keywords:
-
- Chemical Engineering;
- Convective Heat Transfer;
- Interfaces;
- Mass Transfer;
- Soret Coefficient;
- Thermal Diffusion;
- Vapor Deposition;
- Aerosols;
- Boundary Layer Flow;
- Design Analysis;
- Nonisothermal Processes;
- Pressure Gradients;
- Temperature Gradients;
- Transition Temperature;
- Fluid Mechanics and Heat Transfer