Title: Mineral resources for in-situ carbonation of CO2 in the Arabian Shield
Authors: Ali Sahin
Addresses: Center for Petroleum and Minerals, Research Institute, King Fahd University of Petroleum and Minerals, Box 661, Dhahran, Saudi Arabia
Abstract: Commonly adopted storage techniques to reduce CO2 concentration in the atmosphere have significant limitations in terms of cost, monitoring and safety. Thus, innovative techniques such as carbonation involving the reaction of CO2 with some silicate minerals have been proposed. The carbonation ensures permanent fixation rather than the temporary storage and hence provides safe, low-cost and sustainable method for storing CO2. Moreover, the resulting carbonate minerals are stable over geological time periods. Because of its favourable geological setting, Saudi Arabia has a considerable potential for carbonation minerals. Such minerals are associated with ultramafic and mafic igneous rocks within the Arabian Shield which covers extensive areas in the western part of the country. After describing the carbonation process and suitable minerals, their spatial distributions in various rock types are outlined. Finally, the in-situ carbonation of these minerals and the expected benefits are discussed.
Keywords: carbonation minerals; mineral sequestration; CO2; carbon dioxide; carbon sequestration; global warming; Arabian Shield; mineral resources; in-situ carbonation; carbon storage; silicate minerals; rock types.
International Journal of Global Warming, 2016 Vol.9 No.3, pp.275 - 285
Received: 04 Apr 2014
Accepted: 01 Sep 2014
Published online: 23 Mar 2016 *