Carbon dioxide reforming
Carbon dioxide reforming (also known as dry reforming) is a method of producing
The dry reforming reaction may be represented by:
![{\displaystyle {\ce {CH4 + CO2 <=>[975^oC] 2CO + 2H2}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/1d24220c54bb4d6db82c3d90e287a4deb46d02dc)
Thus, two greenhouse gases are consumed and useful chemical building blocks, hydrogen and carbon monoxide, are produced. A challenge to the commercialization of this process is that the hydrogen that is produced tends to react with carbon dioxide. For example, the following reaction typically proceeds with lower activation energy than the dry reforming reaction itself:
![{\displaystyle {\ce {CO + H2O <=>[600^oC] CO2 + H2}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/27a483ab6fcbb53aefc76ef7c0d3907e9fa80bd3)
Another issue with dry reforming is situated in the fact that it operates at conditions that produces water. As a result, this water can lead to unwanted back-reaction to CO2 via the water-gas shift reaction. To prevent CO2 from being formed, and consequently losses in CO yield, CO2 can be adsorbed onto calcium oxide. Consequently, the process forms only CO and H2O, increasing the utilization efficiency of the feedstocks. This process is better known as super-dry reforming.[4]
CO2 can be dry reformed in to CO gas at 800-850 °C by reacting with
References
- S2CID 98796593.
- PMID 28710875.
- ISBN 978-0-8493-4428-2.
- ^ "Dream or Reality? Electrification of the Chemical Process Industries". www.aiche-cep.com. Retrieved 2021-08-22.
- ^ "Catalysts for Thermal Conversion of Carbon Dioxide to Carbon Monoxide or Synthesis Gas Using Fuels". Retrieved 18 April 2022.