Transport Phenomena and Interfacial Kinetics in Multiphase Combustion Systems.
Abstract
This annual report summarizes Yale High Temperature Chemical Reaction Engrg. Laboratory research methods/results (Grant AFOSR 84-0034) for the ca one-year period ending 12/31/86. Our techniques and results are outlined in phoretic diffusitives, and vapor and/or particle-deposition rates onto cooled surfaces in combustion gases, (2) role of thermophoresis in the capture of soot particles and the use of this phenomenon to infer both local soot volume fractions and logical gas temperatures, (3) boundary layer computational methods and correlations for thermophoretically-modified vapor and small particle transport, including high mass-loading and dopant redistribution effects, and, (4) use of a micro-wave-induced plasma emission spectroscopic (MIPES) method to follow boron surface gasification kinetics in stream containing oxygen (g). Presentation and archive publications describing these techniques/findings are documented, including the publication of a more comprehensive textbook: Transport Processes in Chemically Reacting Flow Systems (Butter-worths, Stoneham MA) by the Principal Investigator. Keywords: Aerosols, Convective diffusion, Chemical vapor deposition, Energy transfer, Catalysis, Fouling, Soot.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1987
- Accession Number
- ADA179544
Entities
People
- Daniel E. Rosner
Organizations
- Yale University