Language
English
German
^M
Dutch
Spanish
Title:
The Residence Time of Settling Particles in the Surface Mixed Layer
Source:
Environmental Fluid Mechanics [1567-7419] Deleersnijder, Eric yr:2006
Basic
Sorry, no full text available...
Please use the document delivery service (see below)
Holding information
Holdings in library search engine
ALBERT
Document delivery
Request document via
Library/Bibliothek
Users interested in this article also expressed an interest in the following:
description
1.
Choi, W.-J. J.
"Deposition velocity onto an inverted flat surface in a laminar parallel flow."
Aerosol science and technology
44.11 (2010): 919-929.
description
2.
García, C.
"Numerical modelling and experimental validation of steel deep drawing processes: Part I. Material characterization."
Journal of materials processing technology
172.3 (2006): 451-460.
description
3.
"INFLUENCE OF SETTLING VELOCITY OF PARTICULATE MATTER ON GROUND LEVEL CONCENTRATIONS."
Ciência e natura : revista do Centro de Ciências Naturais e Exatas /
38.IX WORKSHOP: 56-565.
description
4.
Woo, S.
"Statistical Lagrangian particle tracking approach to investigate the effect of thermophoresis on particle deposition onto a face-up flat surface in a parallel airflow."
Journal of aerosol science
44 (2012): 1-10.
description
5.
Garcia, C.
"Numerical modelling and experimental validation of steel deep drawing processes - Part II: Applications."
Journal of materials processing technology
172.3 (2006): 461-471.
description
6.
Hemerka, J.
"Deposition of aerosol particles on rough surfaces inside a test chamber."
Building and environment
44.10 (2009): 2056-2063.
description
7.
Thatcher, T.
"Deposition, resuspension, and penetration of particles within a residence."
Atmospheric environment
29.13 (1995): 1487-1487.
description
8.
Castro-Smirnov, Mauricio R.
"Selective UV Reflecting Mirrors Based on Nanoparticle Multilayers."
Advanced functional materials
23.22 (2013): 2805-2811.
description
9.
Lai, A.
"Particle deposition in ventilation duct onto three-dimensional roughness elements."
Building and environment
37.10 (2002): 939-945.
description
10.
Wu, B.
"Improving the design of a pickup head for particle removal using computational fluid dynamics."
Proceedings of the Institution of Mechanical Engineers; Part C; Journal of Mechanical Engineering Science
225.4 (2011): 939-948.
description
11.
Galeev, R.
"Deposition of aerosol particles on a sphere: The role of gravity."
Aerosol science and technology
37.4 (2003): 325-329.
description
12.
Ahn, H.
"Experimental study of critical heat flux enhancement during forced convective flow boiling of nanofluid on a short heated surface."
International journal of multiphase flow
36.5 (2010): 375-384.
description
13.
Asbach, C.
"Comparison of four mobility particle sizers with different time resolution for stationary exposure measurements."
Journal of nanoparticle research
11.7 (2009): 1593-1609.
description
14.
Petroff, A.
"Aerosol dry deposition on vegetative canopies. Part II: A new modelling approach and applications."
Atmospheric environment
42.16 (2008): 3654-3683.
View More...
View Less...
Select All
Clear All
Save Citations
Select Format
Reference Manager
ProCite
RefWorks
EndNote
Submit citation export
Advanced
Author
Other articles by this author? -- in
GeoRef
author:
Deleersnijder, Eric
Beckers, Jean-Marie
last name
initials
Other articles by this author? -- in
Online Contents Geosciences
author:
Deleersnijder, Eric
Beckers, Jean-Marie
last name
initials
Web Search
Find related information in
a Web Search Engine
Excite
Google
HotBot
Ixquick
ZOO
Ask
Yahoo!
Bing
Naver
Search Terms:
Search for related information in
Google Scholar
Article Title
Author Name
Journal Title
Other Search
Search Terms:
A service provided by the
Library of the Wissenschaftspark Albert Einstein
, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.