TY  - EJOU
AU  - Wang, Qunyi 
AU  - Ma, Xiaoli 
AU  - Bi, Yongbin 
AU  - He, Haiyan 
AU  - Gu, Xiao 
AU  - Liu, Tongjing 
AU  - Zhao, Lekun 

TI  - Analysis of Channeling-Path Phenomena in a Complex Fault-Block Reservoir with Low Recovery Factor and High Water-Cut Ratio
T2  - Fluid Dynamics \& Materials Processing

PY  - 2023
VL  - 19
IS  - 2
SN  - 1555-2578

AB  - Current methods for the analysis of channeling-path phenomena in reservoirs cannot account for the influence of time and space on the actual seepage behavior. In the present study, this problem is addressed considering actual production data and dynamic characteristic parameters quantitatively determined in the near wellbore area by fitting the water-cut curve of the well. Starting from the dynamic relationship between injection and production data, the average permeability is determined and used to obtain a real-time quantitative characterization of the seepage behavior of the channeling-path in the far wellbore area. For the considered case study (Jidong oilfield), it is found that the seepage capacity of the channeling-path in the far wellbore area is far less (10 times smaller) than that of the channeling-path in the near wellbore area. The present study and the proposed model (combining near wellbore area and far wellbore area real-time data) have been implemented to support the definition of relevant adjustment measures to ultimately improve oil recovery.
KW  - Complex fault-block reservoirs; channeling path; quantitative identification; characteristic parameters; dynamic inversion

DO  - 10.32604/fdmp.2022.020358