Difference between revisions of "Bosch reaction"

Latest revision as of 11:34, 22 June 2021

The Bosch reaction^[1] is the exothermic reduction of carbon dioxide by hydrogen in the presence of a catalyst such as nickel to form water and elemental carbon.^[2]
$CO_{2}+2H_{2}\rightarrow C+2H_{2}O+heat$

Preventing toxic carbon dioxide buildup in a spacecraft atmosphere^[2].
Provides a source of carbon.
Results in production of either water or oxygen:
- If the hydrogen for the process must come from water (most likely by electrolysis), the Bosch reaction results in a net release of oxygen for breathing, for water filter production, as a metallurgical additive or as a chemical reagent.
- Alternatively, in an Earth-supported colony that shipped molecular hydrogen from Earth, it would allow water production from the Martian atmosphere (within the limits of available hydrogen).

The catalyst requires regular cleaning or replacement due to the inhibiting effect of the layer of carbon that forms on it.^[2]
The reaction only takes place at a fairly high temperature and so places a drain on energy and thermal control resources in a spacecraft/colony.^[2]

↑ Wikipedia: https://en.wikipedia.org/wiki/Bosch_reaction
↑ ^2.0 ^2.1 ^2.2 ^2.3 W.J. Crump - Issues and solutions for short-duration flights: A historical perspective on physiochemical systems in S.E. Churchill ed. Fundamentals of space life sciences vol. 2. 1997. ISBN 0-89464-051-8 pp. 273-276.

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−	The '''Bosch reaction''' is the exothermic reduction of [[carbon dioxide]] by [[hydrogen]] in the presence of a [[catalyst]] such as [[nickel]] to form [[water]] and elemental [[carbon]].<ref name="Crump">W.J. Crump - ''Issues and solutions for short-duration flights: A historical perspective on physiochemical systems'' in S.E. Churchill ed. ''Fundamentals of space life sciences'' vol. 2. 1997. ISBN 0-89464-051-8 pp. 273-276.</ref><br />	+	The '''Bosch reaction'''<ref>Wikipedia: https://en.wikipedia.org/wiki/Bosch_reaction</ref> is the exothermic reduction of [[carbon dioxide]] by [[hydrogen]] in the presence of a [[catalyst]] such as [[nickel]] to form [[water]] and elemental [[carbon]].<ref name="Crump">W.J. Crump - ''Issues and solutions for short-duration flights: A historical perspective on physiochemical systems'' in S.E. Churchill ed. ''Fundamentals of space life sciences'' vol. 2. 1997. ISBN 0-89464-051-8 pp. 273-276.</ref><br />
	<math>CO_2 + 2H_2 \rightarrow C + 2H_2O + heat</math>		<math>CO_2 + 2H_2 \rightarrow C + 2H_2O + heat</math>