Particle Transport, Deposition & Removal On-Line Curriculum
ME 437
Particle Transport, Deposition and Removal I
The objective of this course is to provide the undergraduate engineering students with the fundamentals of particle transport, deposition and removal. The course material covers analytical, numerical, and experimental methodologies for analyzing and predicting a variety of aerosols transport and deposition including particle adhesion and removal. Industrial and environmental applications including surface cleaning are covered. (syllabus)
ME 537
Fluid Mechanics of Aerosols
The objective of this course is to provide the graduate engineering students with the fundamentals of particle transport, deposition and removal. The course material covers analytical, numerical, and experimental methodologies for analyzing and predicting a variety of aerosols transport and deposition including particle adhesion and removal. Industrial and environmental applications including surface cleaning are covered. (syllabus)
ME637
Particle Transport, Deposition, and Removal II
The objective of this course is to provide the graduate students with advances in particle transport, deposition and removal. The course material covers advanced computational and experimental methods. Aerosols transport and deposition turbulent flows will be covered. Industrial and environmental applications including transport processes in filtration devices, indoor and outdoor environments and respiratory deposition are covered. (syllabus)
Related Links
CRCD Courses
- CRCD Main Site (https://sites.clarkson.edu/gahmadi/crcd)
- ME 437: Particle Transport, Deposition, and Removal I (https://sites.clarkson.edu/gahmadi/courses/me437/)
- ME 537: The Fluid Mechanics of Aerosols (https://sites.clarkson.edu/gahmadi/courses/me537/)
- ME 637: Particle Transport, Deposition, and Removal II (https://sites.clarkson.edu/gahmadi/courses/me637/)
Related Sites at Clarkson
- Turbulence & Multiphase Fluid Flow Laboratory (http://www.clarkson.edu/fluidflow/)
- ME 326: Intermediate Fluid Mechanics (https://sites.clarkson.edu/gahmadi/courses/me326/)
- ME 529: Stochastic Processes in Engineering (https://sites.clarkson.edu/gahmadi/courses/me529/)
- ME 639: Advanced Turbulence (https://sites.clarkson.edu/gahmadi/courses/me639/)
Other Sites of Interest
- National Science Foundation (http://www.nsf.gov/)
- Journal of Turbulence (http://www.iop.org/Journals/jt)
- ASCI Turbulence PPM Movies (http://www.llnl.gov/CASC/asciturb/movies.html)
- Characteristics of Laminar & Turbulent Flow (href=”ftp://ftp.iihr.uiowa.edu/pub/iihr/RouseMovies/pgm3.mpg)
- Digitized Hunter Rouse Movies (http://www.iihr.uiowa.edu/products/pubvid/dhrm.html)
- Jet Flows (http://www.amtec.com/Product_pages/glaze.html)
- Delta Wing (http://www.nd.edu/~ame/facilities/SubsonicTunnels.html)
- Micro-Active Control of a Jet (http://www-math.mit.edu/~tomp/mems.html)
- Cyclones (http://fluids.csiro.au/~hmb/part.html)
- Blackbird (http://www.sr-71.org/blackbird/movie.htm)
- Unsteady Turbulent Flow (http://www.cerfacs.fr/cfd/movies/moviesmodelling.html)
- Advanced Aerodynamics and Multiphysics (http://www.cerfacs.fr/cfd/movies/moviesaam.html)
- Flow movies (http://www.cerfacs.fr/cfd/Movies.html)
- DNS Channel Flow (http://www.hpcc.ecs.soton.ac.uk/~turbulence/gallery.html)
- DNS of Particle-Liquid Flows (http://www.aem.umn.edu/Solid-Liquid_Flows/)
- Hemodynamics Simulations (http://www.mae.ncsu.edu/research/ck_CFPDlab/ResearchProjects.html)
- Fluid Mechanics Research Lab (http://www.eng.chula.ac.th/~fmeabj/)