A semi-analytical pressure and rate transient analysis model for inner boundary and propped fractures exhibiting dynamic behavior under long-term production conditions

作     者：Lin-Song Cheng Chong Cao Quan-Yu Pan Pin Jia Ren-Yi Cao Zhi-Kai Wang Jun-Jie Shi 

作者机构：College of Petroleum EngineeringChina University of Petroleum(Beijing)Beijing102249China Sinopec Petroleum Exploration and Production Research InstituteBeijing100083China CNOOC Research InstituteBeijing100028China State Key Laboratory of Water Resources Protection and Utilization in Coal MiningBeijing112211China 

出 版 物：《Petroleum Science》 (石油科学（英文版）)

年 卷 期：2024年第21卷第4期

页      面：2520-2535页

核心收录：

学科分类：0820[工学-石油与天然气工程] 08[工学] 082002[工学-油气田开发工程] 

基　　金：financial funding of National Natural Science Foundation of China (No.52004307) China National Petroleum Corporation (No.ZLZX2020-02-04) the Science Foundation of China University of Petroleum,Beijing (No.2462018YJRC015) 

主　　题：Semi-analytical model Length shrinkage Dynamic behavior Boundary changes Transient behavior 

摘      要：The loss of hydrocarbon production caused by the dynamic behavior of the inner boundary and propped fractures under long-term production conditions has been widely reported in recent ***,the quantitative relationships for the variations of the inner boundary and propped fractures have not been determined and incorporated in the semi-analytical models for the pressure and rate transient *** work focuses on describing the variations of the inner boundary and propped fractures and capturing the typical characteristics from the pressure transient curves.A generalized semi-analytical model was developed to characterize the dynamic behavior of the inner boundary and propped fractures under long-term production *** pressure-dependent length shrinkage coefficients,which quantify the length changes of the inner zone and propped fractures,are modified and incorporated into this multi-zone semi-analytical *** simultaneous numerical iterations and numerical inversions in Laplace and real-time space,the transient solutions to pressure and rate behavior are determined in just a few *** dynamic behavior of the inner boundary and propped fractures on transient pressure curves is divided into five periods:fracture bilinear flow(FR1),dynamic PFs flow(FR2),inner-area linear flow(FR3),dynamic inner boundary flow(FR4),and outer-area dominated linear flow(FR5).The early hump during FR2 period and a positive upward shift during FR4period are captured on the log-log pressure transient curves,reflecting the dynamic behavior of the inner boundary and propped fractures during the long-term production *** transient pressure behavior will exhibit greater positive upward trend and the flow rate will be lower with the shrinkage of the inner *** pressure derivative curve will be upward earlier as the inner boundary shrinks more *** lower permeability caused by the closure of un-propped fractures in the inner zone results in gr