Difference between revisions of "Pumping Systems"

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(Positive Displacement Pumps)
 
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[[File:Rotary_vane_pump.png| 600px]]
 
[[File:Rotary_vane_pump.png| 600px]]
  
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[[File:Diaphragm_pump.png|600px]]
  
Momentum transfer: Uses high speed jets of dense fluid or high speed rotating blades to knock gas molecules out of the chamber. Ex: Diffusion and turbo molecular
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== Momentum Transfer Pumps ==
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Momentum transfer: Uses high speed jets of dense fluid or high speed rotating blades to knock gas molecules out of the chamber.  
  
[[File:Cut_through_turbomolecular_pump.jpg|300px]]
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[[File:Turbo_pump.png|600px]]
  
capture gases in a solid or adsorbed state. Ex: Ion and sorption pumps
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== Entrapment Pumps ==
  
[[File:ionpump.jpg]]
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Capture gases in a solid or adsorbed state.
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[[File:Sorption_pump.png|600px]]
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'''Useful Links:'''
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[http://en.wikipedia.org/wiki/Rotary_vane_pump| Rotary Vane Pump]
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[http://en.wikipedia.org/wiki/Diaphragm_pump| Diaphragm Pump]
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[http://en.wikipedia.org/wiki/Turbomolecular_pump| Turbomolecular Pump]
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[http://en.wikipedia.org/wiki/Sorption_pump| Sorption Pump]

Latest revision as of 15:32, 7 November 2014

Three types of pump systems: positive displacement, momentum transfer, and entrapment.

Positive Displacement Pumps

Positive displacement: Uses a mechanism to repeatedly expand a cavity, allow gases to flow in from the chamber, seal off the cavity, and exhaust it to the atmosphere.

Rotary vane pump.png

Diaphragm pump.png

Momentum Transfer Pumps

Momentum transfer: Uses high speed jets of dense fluid or high speed rotating blades to knock gas molecules out of the chamber.

Turbo pump.png

Entrapment Pumps

Capture gases in a solid or adsorbed state.

Sorption pump.png

Useful Links:

Rotary Vane Pump

Diaphragm Pump

Turbomolecular Pump

Sorption Pump

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