Difference between revisions of "Sorbs"

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(Created page with 'I have typed up a summary of important information about sorbs: * [http://cua.harvard.edu/~edm/papers/sorbs/sorbs.pdf Charcoal as a Helium Cryopump, Version 1.0] Here is a summ...')
 
 
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I have typed up a summary of important information about sorbs:
 
I have typed up a summary of important information about sorbs:
  
* [http://cua.harvard.edu/~edm/papers/sorbs/sorbs.pdf Charcoal as a Helium Cryopump, Version 1.0]
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* [http://www.doylegroup.harvard.edu/files/sorbs/sorbs.pdf Charcoal as a Helium Cryopump, Version 1.0]
  
 
Here is a summary of key points:
 
Here is a summary of key points:
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This is a first draft. There is more that I would like to add to it, but there is enough in it for now. The references are listed below. -- Nick Hutzler, 28 October 2008
 
This is a first draft. There is more that I would like to add to it, but there is enough in it for now. The references are listed below. -- Nick Hutzler, 28 October 2008
  
* 1. [http://cua.harvard.edu/~edm/papers/sorbs/Characterization%20of%20charcoals%20for%20helium%20cryopumping%20in%20fusion%20devices.pdf Sedgley et al, Characterization of charcoals for helium cryopumping in fusion devices.] J. Vac. Sci. Technol. A 5(4) (1987).
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* 1. [http://www.doylegroup.harvard.edu/files/sorbs/Characterization%20of%20charcoals%20for%20helium%20cryopumping%20in%20fusion%20devices.pdf Sedgley et al, Characterization of charcoals for helium cryopumping in fusion devices.] J. Vac. Sci. Technol. A 5(4) (1987).
* 2. [http://cua.harvard.edu/~edm/papers/sorbs/Evaluation%20of%20charcoal%20sorbents%20for%20helium%20cryopumping%20in%20fusion%20reactors.pdf Tobin et al, Evaluation of charcoal sorbents for helium cryopumping in fusion reactors.] J. Vac. Sci. Technol. A 5(1) (1987).
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* 2. [http://www.doylegroup.harvard.edu/files/sorbs/Evaluation%20of%20charcoal%20sorbents%20for%20helium%20cryopumping%20in%20fusion%20reactors.pdf Tobin et al, Evaluation of charcoal sorbents for helium cryopumping in fusion reactors.] J. Vac. Sci. Technol. A 5(1) (1987).
* 3. [http://cua.harvard.edu/~edm/papers/sorbs/Development%20of%20Charcoal%20Sorbents%20for%20Helium%20Cryopumping%20-%20No%20Cover.pdf Sedgley et al, Development of Charcoal Sorbents for Helium Cryopumping.] 10th Symposium on Fusion Engineering (1983), pp. 454–458.
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* 3. [http://www.doylegroup.harvard.edu/files/sorbs/Development%20of%20Charcoal%20Sorbents%20for%20Helium%20Cryopumping%20-%20No%20Cover.pdf Sedgley et al, Development of Charcoal Sorbents for Helium Cryopumping.] 10th Symposium on Fusion Engineering (1983), pp. 454–458.
* 4. [http://cua.harvard.edu/~edm/papers/sorbs/Campbell%20Thesis.pdf Wes Campbell's Thesis, sec. 3.2.5]
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* 4. [http://www.doylegroup.harvard.edu/files/sorbs/Campbell%20Thesis.pdf Wes Campbell's Thesis, sec. 3.2.5]
* 5. [http://cua.harvard.edu/~edm/papers/sorbs/Cryosorption%20Pumping%20of%20He%20by%20Charcoal.pdf Hseuh et al, Cryosorption Pumping of He by Charcoal.] 8th Symposium on Engineering Problems of Fusion Research (1979), pp. 1578–1562.
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* 5. [http://www.doylegroup.harvard.edu/files/sorbs/Cryosorption%20Pumping%20of%20He%20by%20Charcoal.pdf Hseuh et al, Cryosorption Pumping of He by Charcoal.] 8th Symposium on Engineering Problems of Fusion Research (1979), pp. 1578–1562.
* 6. [http://cua.harvard.edu/~edm/papers/sorbs/Recent%20Developments%20in%20Cryopumping.pdf Hands, Recent developments in cryopumping.] Vacuum 32(10/11) (1982).
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* 6. [http://www.doylegroup.harvard.edu/files/sorbs/Recent%20Developments%20in%20Cryopumping.pdf Hands, Recent developments in cryopumping.] Vacuum 32(10/11) (1982).
* 7. [http://cua.harvard.edu/~edm/papers/sorbs/Cryogenic%20Adsorption%20of%20Noncondensibles%20in%20the%20High-Vacuum%20Regime.pdf Lessard, Cryogenic Adsorption of Noncondensibles in the High-Vacuum Regime.] J. Vac. Sci. Technol. A 7(3) (1989).
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* 7. [http://www.doylegroup.harvard.edu/files/sorbs/Cryogenic%20Adsorption%20of%20Noncondensibles%20in%20the%20High-Vacuum%20Regime.pdf Lessard, Cryogenic Adsorption of Noncondensibles in the High-Vacuum Regime.] J. Vac. Sci. Technol. A 7(3) (1989).
* 8. [http://cua.harvard.edu/~edm/papers/sorbs/Helium%20Cryopumping%20-%20No%20Cover.pdf Gurevich et al, Helium Cryopumping.] Plasma Devices and Operations 1 (1990).
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* 8. [http://www.doylegroup.harvard.edu/files/sorbs/Helium%20Cryopumping%20-%20No%20Cover.pdf Gurevich et al, Helium Cryopumping.] Plasma Devices and Operations 1 (1990).
* 9. [http://cua.harvard.edu/~edm/papers/sorbs/Cryopumping%20for%20Fusion%20Power%20Applications%20-%20No%20Cover.pdf Sedgley et al, Cryopumping for Fusion Power Applications.] 11th Symposium on Fusion Engineering (1985), pp. 958–962.
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* 9. [http://www.doylegroup.harvard.edu/files/sorbs/Cryopumping%20for%20Fusion%20Power%20Applications%20-%20No%20Cover.pdf Sedgley et al, Cryopumping for Fusion Power Applications.] 11th Symposium on Fusion Engineering (1985), pp. 958–962.
* 10. [http://cua.harvard.edu/~edm/papers/sorbs/Experimental%20Performance%20of%20a%20Large-Scale%20Cryopump.pdf Coupland et al, Experimental Performance of a Large-Scale Cryopump.] J. Vac. Sci. Technol. A 5(4) (1987).  
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* 10. [http://www.doylegroup.harvard.edu/files/sorbs/Experimental%20Performance%20of%20a%20Large-Scale%20Cryopump.pdf Coupland et al, Experimental Performance of a Large-Scale Cryopump.] J. Vac. Sci. Technol. A 5(4) (1987).  
  
 
Some other good papers that did not yet make it into the summary:
 
Some other good papers that did not yet make it into the summary:
  
* [http://cua.harvard.edu/~edm/papers/sorbs/Cryopumping%20of%20Hydrogen%20and%20Helium.pdf Halama et al, Cryopumping of Hydrogen and Helium]
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* [http://www.doylegroup.harvard.edu/files/sorbs/Cryopumping%20of%20Hydrogen%20and%20Helium.pdf Halama et al, Cryopumping of Hydrogen and Helium]

Latest revision as of 09:20, 22 February 2010

I have typed up a summary of important information about sorbs:

Here is a summary of key points:

  • The bonding agent does indeed have a very significant effect on the pumping abilities of a sorb. Data shows that poor thermal conductors like SS or ZrO2 cements have little or no pumping speed, while Ag-Sn braze bonds and copper cements have the best pumping speed. This would suggest that using Stycast as a bonding agent is not ideal, since it has very poor thermal conductivity (~1/5 that of 316 SS at 4K).
  • Baking out sorbs is always a good idea, but heating them too much can be bad. Experiments have shown that charcoal heated to very high temperatures (~900 Celcius) in preparation had a reduced pumping speed. However, heating to moderate temperatures (<250 Celsius) seems to be fine.
  • Contamination of sorbs by pump oil is significant enough that after a few weeks under vacuum, pumping speed can drop by almost an order of magnitude. Sorbs should be baked out and cooled in the presence of a cold surface onto which contaminants can condense, for example a clean metal surface at or below LN2 temperatures.

This is a first draft. There is more that I would like to add to it, but there is enough in it for now. The references are listed below. -- Nick Hutzler, 28 October 2008

Some other good papers that did not yet make it into the summary: