Petroleum Exploration and Development (Oct 2024)

CO2 high-pressure miscible flooding and storage technology and its application in Shengli Oilfield, China

  • Yong YANG,
  • Shiming ZHANG,
  • Xiaopeng CAO,
  • Qi LYU,
  • Guangzhong LYU,
  • Chuanbao ZHANG,
  • Zongyang LI,
  • Dong ZHANG,
  • Wenkuan ZHENG

Journal volume & issue
Vol. 51, no. 5
pp. 1247 – 1260

Abstract

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There are various issues for CO2 flooding and storage in Shengli Oilfield, which are characterized by low light hydrocarbon content of oil and high miscible pressure, strong reservoir heterogeneity and low sweep efficiency, gas channeling and difficult whole-process control. Through laboratory experiments, technical research and field practice, the theory and technology of CO2 high pressure miscible flooding and storage are established. By increasing the formation pressure to 1.2 times the minimum miscible pressure, the miscibility of the medium-heavy components can be improved, the production percentage of oil in small pores can be increased, the displacing front developed evenly, and the swept volume expanded. Rapid high-pressure miscibility is realized through advanced pressure flooding and energy replenishment, and technologies of cascade water-alternating-gas (WAG), injection and production coupling and multistage chemical plugging are used for dynamic control of flow resistance, so as to obtain the optimum of oil recovery and CO2 storage factor. The research results have been applied to the Gao89-Fan142 in carbon capture, utilization and storage (CCUS) demonstration site, where the daily oil production of the block has increased from 254.6 t to 358.2 t, and the recovery degree is expected to increase by 11.6 percentage points in 15 years, providing theoretical and technical support for the large-scale development of CCUS.

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