Steam calcination of lime for CO2 capture

Eyad Smadi, Mehdi Jafarian, Bassam Dally, Graham J. Nathan

Research output: Contribution to journalArticlepeer-review

2 Scopus citations


A process to achieve carbon capture from limestone calcination in a steam atmosphere generated by the combustion of hydrogen and oxygen has been developed and analysed. This process allows the capture of carbon dioxide by condensing the steam from the exhaust gases which avoids the need for the energy intensive step of separation of carbon dioxide from combustion products that is otherwise needed in conventional plants. These results are compared with a standard calcination cycle using fossil fuels with carbon dioxide capture based on oxyfuel combustion. A process model is used to estimate the capture efficiencies as being 98.6% for the carbon dioxide and 90.7% for the water, which can be recycled. This novel approach adds negligible energy cost except for the carbon dioxide compression unit which is an essential unit for all capture technologies. A techno-economic analysis of both processes, namely, steam calcination and natural gas with oxyfuel combustion, estimates that cost parity is achieved when the price of hydrogen reaches the range between US$1/kg – US$2/kg, relative to the current and projected price for natural gas. With hydrogen production costs projected to reach these values in the future, this approach appears to offer good potential once demonstrated at a reasonable scale. Furthermore, the cost of carbon dioxide transport and storage is estimated to be reduced by 23.9% for the steam calcination process, by avoiding the need to sequester any combustion products.
Original languageEnglish (US)
Pages (from-to)109812
JournalJournal of Environmental Chemical Engineering
Issue number3
StatePublished - Mar 31 2023

Bibliographical note

KAUST Repository Item: Exported on 2023-04-10
Acknowledgements: This project received funding from the Australian Government through the Australian Renewable Energy Agency, through grant ARENA 2015/RND054, which is gratefully acknowledged, together with support from Alcoa.

ASJC Scopus subject areas

  • Waste Management and Disposal
  • Pollution
  • Process Chemistry and Technology
  • Chemical Engineering (miscellaneous)


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