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ABSTRACT
CO2 flooding is an effective way in the tertiary oil recovery. While asphaltene often precipitates from the crude oil during the CO2 flooding, and the mechanisms of blockage resulting from asphaltene precipitation is still unclear in different CO2 flooding schemes. In this work, pure-CO2 flooding, water-alternating-CO2 flooding (WAG), and CO2-foam flooding were applied to conduct the core-flooding experiments. Then, as for each flooding scheme, we quantitatively investigated the blockage degree in different pores due to asphaltene precipitation with nuclear magnetic resonance (NMR) technique. Tests results show that CO2-foam flooding has a relatively higher blockage degree both in the smaller pores and the larger pores than WAG and pure-CO2 flooding. Although pure-CO2 flooding has the least asphaltene precipitation and blockage degree among three flooding schemes, its oil recovery degree is far less than the other two flooding schemes. Compared with pure-CO2 flooding and CO2-foam flooding, WAG flooding has the highest oil recovery and an acceptable asphaltene precipitation.