论文信息 - Thermophoretic deposition of small particles in laminar tube flow

Thermophoretic deposition of small particles in laminar tube flow

Abstract The deposition of small particles due to a migration velocity dependent upon temperature gradients (thermophoresis) is studied theoretically for laminar tube flow. The prototype boundary value problem is that in which the wall temperature is suddenly decreased at a given axial position. Because of the ultimate relaxation of the temperature gradient, only some fraction of the particles initially present will deposit on the walls. A Leveque solution for short distances is used to establish a scaling for the deposition efficiency. The effects of weak Brownian diffusion are treated rigorously, and limiting efficiencies for long tubes are determined numerically. Some interesting contrasts between this problem and that for aerosol deposition due solely to diffusion are discussed.

[1] James R. Brock,et al. On the theory of thermal forces acting on aerosol particles , 1962 .

[2] Simon L. Goren,et al. Thermophoresis of aerosol particles in the laminar boundary layer on a flat plate , 1977 .

[3] H. L. Green,et al. R. Particulate clouds: dusts, smokes and mists. , 1957 .

[4] Measurement of the coefficient of thermal slip of gases and the thermophoreses velocity of large-size aerosol particles , 1976 .

[5] C. N. Davies,et al. The Mechanics of Aerosols , 1964 .

[6] S. Friedlander,et al. Role of the electrical double layer in particle deposition by convective diffusion , 1974 .

[7] L. Spielman,et al. Particle Capture from Low-Speed Laminar Flows , 1977 .

[8] M. Moo-young,et al. Thermophoretic acceleration of particle deposition from laminar air streams , 1971 .

[9] E. Ruckenstein,et al. Rate of deposition of Brownian particles under the action of London and double-layer forces , 1973 .