Filtration: Difference between revisions
imported>Madeline Schiesser No edit summary |
imported>Madeline Schiesser No edit summary |
||
Line 1: | Line 1: | ||
{{CZ:Cornell University 2010 BEE 4640 Bioseparation Processes/EZnotice}} | {{CZ:Cornell University 2010 BEE 4640 Bioseparation Processes/EZnotice}} | ||
{{subpages}} | {{subpages}} | ||
''This article is about '''Conventional Filtration,''' for crossflow filtration see [[Crossflow filtration]].'' | ''This article is about '''Conventional Filtration,''' for '''crossflow filtration''' see [[Crossflow filtration]].'' | ||
'''Filtration''' is a process by which solid components of a liquid-solid mixture are separated from the mixture by passing the mixture through a porous medium. In conventional filtration (as opposed to [[crossflow filtration]]) the incoming mixture, or feed, flows perpendicular to the porous medium. A layer of solids continues to build with time over the surface of the medium, while the flux of the feed through the medium approaches a zero asymptote. In bioprocessing, filtration is an early processing step during the recovery phase. It may be employed, for example, to retrieve a target product in solution from an undesired solid mass of freshly ruptured cells. Filtration is of particular value because it allows for an effect means of volume reduction, a crucial tool in early processing. | |||
==The Process== | ==The Process== |
Revision as of 01:16, 26 November 2010
For the course duration, the article is closed to outside editing. Of course you can always leave comments on the discussion page. The anticipated date of course completion is 21 December 2010. One month after that date at the latest, this notice shall be removed. Besides, many other Citizendium articles welcome your collaboration! Note to course participants: Looking forward to some insightful and useful articles from your collaborations. |
This article is about Conventional Filtration, for crossflow filtration see Crossflow filtration.
Filtration is a process by which solid components of a liquid-solid mixture are separated from the mixture by passing the mixture through a porous medium. In conventional filtration (as opposed to crossflow filtration) the incoming mixture, or feed, flows perpendicular to the porous medium. A layer of solids continues to build with time over the surface of the medium, while the flux of the feed through the medium approaches a zero asymptote. In bioprocessing, filtration is an early processing step during the recovery phase. It may be employed, for example, to retrieve a target product in solution from an undesired solid mass of freshly ruptured cells. Filtration is of particular value because it allows for an effect means of volume reduction, a crucial tool in early processing.
The Process
Here, go into more detail about the process.
History
This section should describe the invention and development of the process. If the section runs long, divide it into chronological subsections, for example:
Invention and early development
This subsection should provide some historical context for the development of your process, describe its invention, and name some early developers and/or applications.[1]
Recent developments
This section should discuss new developments in the field. Don't hesitate to drop in brief mentions of processes or features you don't intend to discuss in depth. By so doing you are planting seeds of articles which will eventually be developed by others.[2]
Design and Operation
Use lots of subsections here as you describe various aspects of the process .[3]
Applications
This section should discuss how the process is used in practice.[4]
Examples
If you have used a lot of equations in your article, this may be a good place to show an example of how they are used. See the article on the Antoine Equation for an example.
References
- ↑ John Q. Sample, Chromatography, a new analytical tool. City: Publisher, 1885.
- ↑ "New Directions for Flocculation," American Flocculation Society. 2006. Retrieved July 21, 2009 from http://www.amflocsoc.org/future_devs.html
- ↑ First Author and Second Author, "Electro-absorpto-crossflow-sedimento-extractofractionation," Journal of Superspecialized Bioseparation Arcana 36:2 (2010) pp. 86-52.
- ↑ "Major Success for Bioprocess Fractionation," Anytown Daily News, January 1, 2015, p. A6.