摘要：Hydrocarbon depletion causes fluid saturation and pressure changes, resulting in perturbations in reservoir elasticities and, hence, observable time-lapse (or 4D) seismic responses. Using controlled physical modelling experiments, we aim to evaluate reservoir heterogeneities-related scattering effects on seismic signatures and assess pore-fluid substitution impacts on the 4D seismic attributes. Physical modelling experiments reveal that wave propagations in heterogeneous rocks produce substantially magnified 4D attribute differences related to fluid replacements, contrary to seismic features in homogeneous rocks. In particular, reflected waveforms from the gas-filled scenario exhibit more apparent discontinuities and amplitude variations than water- and oil-saturated scenarios in the heterogeneous regions. It is interesting to see that fluid substitution-induced 4D seismic differences are observable within the weakly heterogeneous region but significantly strong within the highly heterogeneous region. Although it is expected that substituting oil with water produces weak perturbations in reservoir elasticities, the 4D difference observations between time-varying records are apparent. This implies that in addition to reservoir heterogeneities-induced amplifying effects, 4D seismic anomalies are also caused by pore-fluid changes. Due to mesoscopic rock heterogeneities, seismic responses are complicated, and 4D difference estimates will be amplified strongly and, thus, unable to quantify variations in fluid saturation appropriately. This implies that obvious difference volumes in the underburden regions do not necessarily correspond to significant variations in pore-fluid. Subsequently, two end-member rock physics models were applied to predict the widest range of velocity variations and pore-fluid behaviours. Although mesoscopic heterogeneities cause varying degrees of difficulties for hydrocarbon detection, the deformed waveform-induced seismic attribute anomalies, which are often greatly amplified, may be beneficial for more accurately identifying reservoir fluids and monitoring their minor variations in practice. ? 2022 European Association of Geoscientists & Engineers.

ISSN号：0016-8025

卷、期、页：卷71期2：206-226

发表日期：2023-02-01

影响因子：0.000000

期刊分区（SCI为中科院分区）：三区

收录情况：SCI（科学引文索引印刷版）,地学领域高质量科技期刊分级目录（国外T2）,EI（工程索引）,SCIE（科学引文索引网络版）

发表期刊名称：Geophysical Prospecting

参与作者：Zhang, Jialiang,Shi, Peidong,Feng, Zhanxun,Zhang, Fengqi,Liu, Junzhou,Shi, Lei

第一作者：贺艳晓,王尚旭,董春晖,唐跟阳,李国发

论文类型：期刊论文

论文概要：贺艳晓,王尚旭,董春晖,唐跟阳,Zhang, Jialiang,Shi, Peidong,Feng, Zhanxun,Zhang, Fengqi,Liu, Junzhou,李国发,Shi, Lei，A physical modelling study of waveform amplification effects of reservoir heterogeneity on time-lapse seismic attribute analysis，Geophysical Prospecting，2023，卷71期2：206-226

论文题目：A physical modelling study of waveform amplification effects of reservoir heterogeneity on time-lapse seismic attribute analysis