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Record 31 of 208
Viscous dissipation effects on thermophoretically augmented aerosol particle transport across laminar boundary layers
External Online Source: doi:10.1016/0142-727X(85)90066-9
Author and Affiliation:
Gokoglu, S. A.(NASA Lewis Research Center, Cleveland, OH, United States)
Rosner, D. E.(Yale University, New Haven, CT, United States)
Abstract: The effect of viscous dissipation on mass transport across nonisothermal low-mass-loading laminar boundary layers of dusty gas is investigated theoretically by means of numerical simulations. The derivation of the model is outlined, and numerical results are presented in extensive graphs and characterized in detail. The dissipation effects are found to be significant, increasing total particle-deposition rates; the intensity of the effects depends on the ratio of wall temperature to mainstream static temperature.
Publication Date: Dec 01, 1985
Document ID:
19890027229
(Acquired Nov 28, 1995)
Accession Number: 89A14600
Subject Category: FLUID MECHANICS AND HEAT TRANSFER
Document Type: Journal Article
Publication Information: International Journal of Heat and Fluid Flow (ISSN 0142-727X); 6; 293-297
Publisher Information: United States
Contract/Grant/Task Num: AF-AFOSR-84-0034; NAG3-201
Financial Sponsor: NASA; United States
Organization Source: NASA Lewis Research Center; Cleveland, OH, United States
Yale Univ.; New Haven, CT, United States
Description: 5p; In English
Distribution Limits: Unclassified; Publicly available; Unlimited
Rights: Copyright
NASA Terms: AEROSOLS; LAMINAR BOUNDARY LAYER; MASS FLOW RATE; PARTICLE MOTION; THERMOPHORESIS; DUST; ENERGY DISSIPATION; FOULING; TRANSPORT PROPERTIES; VISCOUS FLOW; WALL TEMPERATURE
Imprint And Other Notes: International Journal of Heat and Fluid Flow (ISSN 0142-727X), vol. 6, Dec. 1985, p. 293-297.
Availability Source: Other Sources
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