Affiliation:
1. CNOOC Research Institute, Beijing 100028, China
2. Key Laboratory of EOR, Ministry of Education, Northeast Petroleum University, Daqing 163319, China
Abstract
Mechanism analysis and technical scheme optimization on CO2 displacement and CO2 storage are based on the high-pressure physical properties of CO2-added formation oil. Oil and natural gas samples from the BZ25-1 block in the Bohai oilfield were used to conduct high-pressure physical property experiments to explore the impacts of CO2-CH4 mixed gas on the properties of formation oil. After injecting different amounts of mixed gas, the saturated pressure was measured by constant mass expansion test, the viscosity was measured by falling ball method, the expansion coefficient was measured by gas injection expansion test, and the gas–oil ratio and volume coefficient were obtained by single degassing test. The results show that with gas injection, the saturation pressure and dissolved gas–oil ratio of formation oil increase, the volume coefficient and expansion factor go up, while the oil viscosity reduces. With the increase in gas addition, the properties of formation oil continue to improve, but the increase in improvement becomes flat. With the increase in pressure, the amount of dissolved gas in the formation oil will also increase. High-purity CO2 is more helpful to change the properties of formation oil, while the gas mixed with CH4 is more beneficial to elevate the formation energy. For the BZ 25-1 block, the gas injection amount of about 80 mol% is appropriate and the CO2 purity of 60% can well balance the oil properties improvement and the formation pressure elevation.
Funder
National Key Research and Development Program of China
National Natural Science Foundation of China Dynamic Evolution, Improving Effect and Storage Mechanism of Marine CO2 Geological Reservoirs
Major Science and Technology Project of CNOOC “14th” Five-year Plan: Offshore CO2 Oil Drive Efficient Development Technology and Demonstration Project
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