Capacity assessment of CO 2 storage in deep saline aquifers by mineral trapping and the implications for Songliao Basin, Northeast China

摘要

Abstract Sequestrating CO 2 in deep saline aquifers is maybe the most effective option to mitigate CO 2 emission. The storage capacity of CO 2 is the key factor for site selection before a project is carried out. Most of the existing methods are for assessment of CO 2 sequestered by stratigraphic and structural trapping, as well as residual trapping and solubility trapping. In this study, we used a new method that considers CO 2 consumption through geochemical reactions with minerals of reservoir rocks, mainly sandstones. Contribution of storage capacity from carbonate mineral mainly refers to calcite is excluded. That is because lifetime of calcite (the whole time from reaction starting to calcite running out) is very short contrast with geological time-scale or it is a temporary trapping. The geochemical reactions between CO 2 and feldspar minerals with thousand-year lifetime are regarded as the permanent methods for trapping CO 2 . CO 2 consumptions by K-feldspar, albite, and anorthite are assessed with volume method based on corresponding geochemical reactions. Storage efficiency factor is also considered as one of the most important parameters in the reaction formula and it depends on specific surface area of minerals contacting with formation water and kinetics of precipitation and dissolution of minerals. We assessed the CO 2 storage capacity of mineral trapping in Baokang sedimentary system, south Songliao Basin through the detailed analysis of geological data in this area. The calculated results show the total CO 2 storage capacity of mineral trapping of the study area is 457.5?￠????5114.5 Mt and the corresponding storage efficiency factor is 1%. The CO 2 consumed by albite makes up more than 60% of the total storage capacity and it is about 30% for anorthite.