Progress on binding CO2 in mineral substrates

https://doi.org/10.1016/S0196-8904(96)00279-8Get rights and content

Abstract

Based on current estimates of reserves, coal could satisfy even a very much increased world energy demand for centuries, if only the emission of CO2 into the atmosphere could be curtailed. Here we present a method of CO2 disposal that is based on combining CO2 chemically with abundant raw materials to form stable carbonate minerals. A major advantage of this method is that the resulting waste product is thermodynamically stable and environmentally neutral. It is therefore possible to store large quantities permanently with minimal environmental impact and without the danger of an accidental release of CO2 which has proven fatal in quantities far smaller than contemplated here. The raw materials to bind CO2 exist in nature in large quantities in ultramafic rocks. They are readily accessible and far exceed what would be required to bind all CO2 that could possibly be generated by burning the entire fossil fuel reserves. In this paper we outline a specific process that we are currently investigating. Our initial rough cost estimate of about 3¢/kWh is encouraging. The availability of a CO2 fixation technology would serve as insurance in case global warming, or the perception of global warming, would cause severe restrictions on CO2 emissions. If the increased energy demand of a growing world population is to be satisfied from coal, the implementation of such a technology would be unavoidable.

References (24)

  • C Drägulescu et al.

    Lösungsgleichgewicht von MgO aus Serpentinen durch Einwirkung von CO2 und Wasser

    Revue Roumaine de Chimie

    (1972)
  • S.J Freeth

    Lake Nyos: can another disaster be avoided?

    Geochemical Journal

    (1994)
  • Cited by (196)

    View all citing articles on Scopus
    View full text