石油科学通报2025,Vol.10Issue(4):681-694,14.DOI:10.3969/j.issn.2096-1693.2025.01.017
渤海湾盆地疏松砂岩岩石物理建模及时移地震可行性分析
Rock physics modeling and time-lapse seismic feasibility analysis of unconsolidated sandstones in the Bohai Bay Basin
摘要
Abstract
Under high operational costs and selective applicability constraints,time-lapse(4D)seismic monitoring requires a rigorous feasibility assessment before implementation.The critical aspect of this analysis involves predicting post-production changes in formation elastic parameters,which are influenced by complex factors including reservoir temperature variations,pore pressure changes,and alterations in rock frame properties during hydrocarbon production.To achieve a quantitative evaluation of time-lapse seismic feasibility,a methodological framework based on rock physics modeling has been established,using several shallow,unconsolidated sandstone reservoirs in the Bohai Bay Basin as representative examples.The targeted sandstones exhibit high porosity and weak cementation,requiring specialized modeling approaches.Based on the geological background of the target areas,sedimentary environment analysis and burial history reconstruction are integrated with rock physics techniques to build geologically constrained models.These models facilitate the quantitative description of petrophysical characteristics under varying burial and diagenetic conditions.Based on the constructed rock physics models,evaluations of rock frame stiffness and pore fluid properties are conducted,and elastic parameter variations caused by reservoir production are predicted.Forward seis-mic modeling is then applied to assess the detectability of time-lapse seismic signals under different acquisition scenarios.Given the limited thickness of the target reservoirs,wedge-shaped model simulations are employed to analyze the sensitivity of time-lapse seismic responses to changes in formation thickness.The overall feasibility of time-lapse seismic application is assessed from three dimensions:geological conditions,rock physical properties,and seismic detectability.Results indicate that most studied reservoirs exhibit favorable geological frameworks and competent rock skeletons.However,the nature of the pore fluids,especially hydrocarbon composition and phase behavior,emerges as the critical factor influencing the effectiveness of time-lapse seismic monitoring.Light oil reservoirs show greater potential for successful monitoring due to more significant impedance contrasts.Among the studied cases,the reservoir exhibiting the highest suitability for time-lapse seismic monitoring is selected for further analysis using existing seismic datasets.Time-lapse seismic data matching processing and 4D response evaluation are performed to validate the reliability of the feasibility assessment framework.The findings demonstrate that the proposed approach can provide robust support for evaluating the feasibility of time-lapse seismic monitoring in shallow,unconsolidated sandstone reservoirs in the Bohai Bay Basin.These insights contribute valuable guidance for future applications of 4D seismic in similar geological settings,offering meaningful implications for both petroleum geology and reservoir engineering disciplines.关键词
岩石物理模型/时移地震/岩石物理建模/渤海湾盆地/疏松砂岩Key words
rock physics model/time-lapse seismic/rock physics modeling/Bohai Bay Basin/unconsolidated sandstones分类
天文与地球科学引用本文复制引用
李春雷,赵程,谢涛,朱金强..渤海湾盆地疏松砂岩岩石物理建模及时移地震可行性分析[J].石油科学通报,2025,10(4):681-694,14.基金项目
国家重点研发计划(2023YFB4104202)资助 (2023YFB4104202)
