A pneumatic trough is a piece of laboratory apparatus used for collecting gases, such as hydrogen, oxygen and nitrogen. It is mainly made of glass or various fibres and are of various sizes. It was invented by Stephen Hales.[1]
Description
Four items are required for gas collection with a pneumatic trough:[2]
- The trough itself, which is a large glass dish or a similar container.
- A gas bottle (or bulb), to hold the gas collected.
- A way to support the gas bottle or bulb, such as a beehive shelf or a hanger (as with Stephen Hales' design).
- A liquid in the trough.
Liquid
Pneumatic troughs require a liquid such as water. Scientists also have used mercury in pneumatic troughs, but usually only for the collection of water-soluble gases. Health and safety issues surrounding mercury generally prohibit its use in modern-day pneumatic troughs.[3]
Usage
The bottle is filled with water, inverted, and placed into the pneumatic trough already containing water. The outlet tube from the gas-generating apparatus is inserted into the opening of the bottle so that gas can bubble up through it, displacing the water within.[4]
See also
References
- ↑ Pneumatic Trough - Labappara scientific instrument, vol. 1, 2022-08-21, p. 2, archived from the original (PDF) on 2022-08-21, retrieved 2022-08-21
- ↑ Günther, Matthias; Joemann, Michael; Csambor, Simon. "Chapter 5: Parabolic Trough Technology" (PDF). Advanced CSP Teaching Materials. 5 (12): 10. Archived (PDF) from the original on 2022-07-09. Retrieved 2022-08-21 – via University of Kassel.
- ↑ Tang, Can; Gong, Peng; Xiao, Taishi; Sun, Zhengzong (2021-12-13). "Direct electrosynthesis of 52% concentrated CO on silver's twin boundary". Nat Commun. 9 (21): 12. doi:10.1038/s41467-021-22428-1. PMC 8035331. PMID 33837209.
- ↑ "Impact of a water-filled bottle". abaqus-docs.mit.edu. Massachusetts Institute of Technology. Archived from the original on 2022-08-21. Retrieved 2022-08-21.
Further reading
- Parascandola, John; Ihde, Aaron (1969). "History of the Pneumatic Trough". Isis. 60 (3): 351–361. doi:10.1086/350503. S2CID 144799335.