Volume 15, Issue 1

Abstract

ABSTRACT

Regional saline aquifers offer the greatest potential for very large-scale underground CO storage as a means of mitigating greenhouse gas emissions. Their dynamic storage capacity, in terms of induced increases in formation pressure, will limit the rate at which CO can be injected and may ultimately limit the amount of CO that can be stored. Generic flow models were generated to examine the effects on pressure evolution of various reservoir parameters (dimensions, permeability, porosity, presence and nature of flow barriers). CO injection involves dominantly hydrogeological (single-phase flow) processes in much of the reservoir and surrounding adjacent strata, with additional two-phase flow effects around the CO plume itself. Large, thick aquifers with no significant flow barriers can accept high injection rates (. 10 million tonnes of CO per year) without undue pressure effects. However, flow barriers, such as faults, increase induced pressures considerably; for reservoirs with such features, careful site characterization and operational planning will be required for large storage projects. The principles established from the generic modelling were applied to a real aquifer storage operation at Sleipner in the North Sea. Here, CO is being injected into the Utsira Sand, a large relatively homogeneous reservoir. Modelling indicates that pressure increase should be negligible. In fact, observed wellhead pressures do show a small rise, but this can be attributed to temperature changes in the fluid column in the wellbore. Pressure changes in the reservoir are likely to be very small.

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/content/journals/10.1144/1354-079309-793
2009-02-01
2024-03-29
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Keyword(s): aquifer; carbon storage; climate change; CO2; global warming; greenhouse gas; reservoir simulation

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