TY - JOUR
AU1 - Zhao, Wenkai
AU2 - Jia, Fengjuan
AU3 - Lin, Hai
AU4 - Wang, Zhisheng
AU5 - Wan, Youyu
AU6 - Liu, Le
AU7 - Zhang, Chenjuan
AU8 - Wu, Songtao
AU9 - Sui, Guojie
AU1 - Feng, Daqiang
AU1 - Zhang, Shaobin
AB - There are abundant shale oil resources in Yingxiong Ling, Qaidam Basin, but the oil recovery rate is low due to complex lithofacies types, large physical property differences, diverse pore types and structures, and strong heterogeneity. In order to improve the oil recovery efficiency of Yingxiong Ling shale oil, based on the analysis of the factors affecting the micro-mobility of Yingxiong Ling shale oil, through spontaneous imbibition and nuclear magnetic test, the oil mobility evaluation of different lithology reservoirs and different pore structures and the feasibility of surfactant to improve oil recovery were carried out. The research results show that: (1) Yingxiong Ling shale oil has considerable mobile hydrocarbon base, effective seepage channels, high viscosity reduction conditions and elastic properties, and has the potential for efficient development. (2) In the spontaneous imbibition state, the utilization efficiency of laminar limestone and laminar limestone are 10% and 12.5%, respectively, and that of small pores, large pores and texture cracks are 6.7%, 5.2% and 1.8%, respectively. The overall utilization efficiency is low. (3) The solution containing surfactant components can effectively improve the crude oil production degree of Gan Chaigou shale oil reservoir. The variable-viscosity fracturing fluid can increase the oil production efficiency to 21.46%, and the nano-emulsion can increase the oil production efficiency to 33.43%. The surfactant has a significant effect on the EOR of Yingxiong Ling shale oil. Based on the analysis of micromobility, the characteristics of crude oil mobility and the experimental results of enhanced oil recovery by surfactants, it is concluded that the oil recovery of Yingxiong Ling shale oil can be greatly improved by combining high efficiency surfactants with large-scale volumetric fracturing.
TI - Mobility and Method of Enhanced Oil Recovery for Yingxiongling Shale Oil
JF - Journal of Physics: Conference Series
DO - 10.1088/1742-6596/2834/1/012198
DA - 2024-10-01
UR - https://www.deepdyve.com/lp/iop-publishing/mobility-and-method-of-enhanced-oil-recovery-for-yingxiongling-shale-U3C2DYAnzz
VL - 2834
IS - 1
DP - DeepDyve
ER -