Abstract
Abstract CO 2 geo-sequestration in hydrocarbon reservoirs is suggested as solution for limiting CO 2 atmospheric accumulation. In the case of oxy-combustion CO 2 capture, the main annex gas associated with CO 2 is O 2 in important proportion. To predict the hydrocarbon evolution in the presence of O 2 in oil-depleted reservoir, it is essential to investigate their reactivity by a double approach combining experimentation and modelling. Experiments were carried out on a model compound ( n- octane) and a detailed kinetic model for n- octane was applied. The consistency between experimentations and model is promising for the development of a tool allowing the prediction of hydrocarbon reservoir stability.
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