Affiliation:
1. Exploration and Development Research Institute of Daqing Oilfield Company Ltd., Daqing 163712, China
2. Heilongjiang Provincial Key Laboratory of Reservoir Physics & Fluid Mechanics in Porous Medium, Daqing 163712, China
3. School of Petroleum Engineering, China University of Petroleum (Beijing), Beijing 102249, China
Abstract
The Qing-1 layer of the Gulong Depression in the northern Songliao Basin is a liquid-rich shale oil reservoir that has the characteristics of nanopores, high maturity, high gas/oil ratio (GOR), etc. The production performance of wells in the Gulong shale oil reservoir shows the characteristics of “single gas production followed by oil-gas production”. It is difficult to analyze the initial occurrence state and movability of fluid in the shale nanopores using conventional methods. In this study, a comprehensive method, including phase behavior analysis, physical experiments, and molecular simulation, was established to analyze the initial occurrence state and movability of fluid in the Gulong shale oil reservoir. The phase state of the fluid was calculated by the equation of state (EOS), considering nano-confinement effects, and the initial occurrence state was quantitatively evaluated by combining two-dimensional nuclear magnetic resonance (NMR) and molecular dynamics simulation. The movable fluid saturation was quantitatively determined by centrifugal experiments. The results show that the condensate gas state was in small pores, while the volatile oil state was in large pores. The occurrence states of oil were mainly adsorbed oil and free oil. The proportion of adsorbed oil in inorganic pores was about 24.4%, while the proportion of absorbed oil in organic pores was about 57.8%. Based on the cutoff value of T2 before and after the centrifuged laboratory experiments, the movable limit of oil was determined to be 4.5 nm, and the movable fluid saturation was about 11%. The research method proposed in this study has important guiding significance for the initial occurrence state and movability evaluation of similar liquid-rich shale reservoirs.
Funder
CNPC Major Technology Project “Theory and Key Technologies of Exploration and Development of Daqing Gulong Shale Oil”
Theory and Key Technologies of Beneficial Development of Gulong Shale Oil
Reference28 articles.
1. Classification and evaluation criteria of shale oil and gas resources: Discussion and application;Lu;Pet. Explor. Dev.,2012
2. An analysis of major scientific problems and research paths of Gulong shale oil in Daqing Oilfield, NE China;Sun;Pet. Explor. Dev.,2021
3. Resource potential and exploration direction of Gulong shale oil in Songliao Basin;Wang;Pet. Geol. Oilfield Dev. Daqing,2020
4. Formation mechanism, geological characteristics and development strategy of nonmarine shale oil in China;Zou;Pet. Explor. Dev.,2013
5. In-situ accumulation theory and exploration & development practice of Gulong shale oil in Songliao Basin;He;Shiyou Xuebao/Acta Pet. Sin.,2022