Accession Number:

ADA179544

Title:

Transport Phenomena and Interfacial Kinetics in Multiphase Combustion Systems.

Descriptive Note:

Annual rept. 1 Dec 85-31 Dec 86,

Corporate Author:

YALE UNIV NEW HAVEN CT HIGH TEMPERATURE CHEMICAL REACTION ENGINEERING LAB

Personal Author(s):

Report Date:

1987-01-01

Pagination or Media Count:

11.0

Abstract:

This annual report summarizes Yale High Temperature Chemical Reaction Engrg. Laboratory research methodsresults Grant AFOSR 84-0034 for the ca one-year period ending 123186. Our techniques and results are outlined in phoretic diffusitives, and vapor andor 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 techniquesfindings 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.

Subject Categories:

  • Combustion and Ignition

Distribution Statement:

APPROVED FOR PUBLIC RELEASE