By Rajiv Kohli, Kashmiri L. Mittal
, Page iv
, Pages ix-xii
About the Editors
, Pages xiii-xiv
, Page xv
Chapter 1 - Particle Deposition onto Enclosure Surfaces
, Pages 1-56
Chapter 2 - illness keep an eye on: A platforms Approach
, Pages 57-80
Chapter three - debris in Semiconductor Processing
, Pages 81-120
Chapter four - non-stop illness tracking Systems
, Pages 121-175
Chapter five - Strippable Coatings for removing of floor Contaminants
, Pages 177-224
Chapter 6 - Ultrasonic Cleaning
, Pages 225-280
, Pages 281-286
, Pages I-VIII
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Additional info for Developments in Surface Contamination and Cleaning. Particle Deposition, Control and Removal
01 m m. For smaller particles, the integration must be carried out numerically. 3 y In the limit of small particles (negligible influence of gravitational settling), the expression simplifies to b ¼ 3u*(RI)À1. In the limit of large particles (negligible influence of Brownian diffusion), the expression simplifies to b ¼ 3vts(4R)À1. 11 Predictions of particle deposition rate as a function of particle diameter in the three-layer model of Lai and Nazaroff  compared with experimental data . Reprinted with permission from Lai and Nazaroff .
Japan 20 (1987) 57.  M. Abadie, K. Limam, F. Allard, Indoor particle pollution: effect of wall textures on particle deposition, Building Environ. 36 (2001) 821.  M. Shimada, K. Okuyama, Y. H. Seinfeld, A model calculation of particle deposition onto rough wall by Brownian and turbulent diffusion, J. Colloid Interface Sci. 125 (1988) 198. K. A. H. Goddard, Experimental studies of the effect of rough surfaces and air speed on aerosol deposition in a test chamber, Aerosol Sci. Technol. 36 (2002) 973.
23] and Cheng . Reprinted with permission from Cheng . g. 1 mm) in small cylindrical or spherical vessels with smooth surfaces, assuming that Re can be defined as stated in equation (30). For larger particles and higher fluid turbulence, deviations from equation (30) were observed because diffusion was no longer the only mechanism for deposition and other processes, such as inertial drift, may contribute to particle transport to the surfaces. 8. SUMMARY The phenomenon of particle deposition onto surfaces in a confined environment is frequently encountered in numerous industrial and environmental settings, either as a desirable or an undesirable outcome.
Developments in Surface Contamination and Cleaning. Particle Deposition, Control and Removal by Rajiv Kohli, Kashmiri L. Mittal