NUMERICAL INVESTIGATION ON THE IMPACT OF INITIAL WATER SATURATION DISTRIBUTION ON HOT WATER FLOODING PERFORMANCE UNDER NON-ISOTHERMAL CONDITIONS

IF 1.2 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Md. Irshad Ansari, S. Govindarajan
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Abstract

The heterogeneity in the spatial distribution of initial water saturation influences the performance of hot water flooding. The prospect of a reduction in oil recovery arises from the development of viscous instability. In the present study, a numerical simulation model has been developed by coupling heat transport, and multiphase flow in porous media integrated with the non-isothermal flow, and the numerical model has been verified with the existing analytical solution by Buckley and Leverett. The formation of a wavy temperature profile at the condensation front was found with a decreased depth of temperature penetration. The average rise of temperature is drastically affected by the spatial distribution of initial water saturation. The formation of viscous fingering was highly dominating in the reservoir, with initial water saturation randomly distributed and causing the front to move in an irregular pattern from the initial stage of the flooding. The heterogeneous reservoir with initial water distribution showed the earlier formation of viscous fingering than the homogeneous reservoir. The heterogeneity in the spatial distribution of initial water saturation had caused viscous instability, lower viscosity reduction, lower displacement sweeps efficiency, and higher residual oil saturation. The present study is limited to spatial distribution in initial water saturation to a certain degree of heterogeneity. The heterogeneity in the spatial distribution of initial water saturation highly impacted the production performance of hot water flooding. The present study provides an idea for the implementation and future development of hot water flooding in a randomly initial water saturation distributed environment.
非等温条件下初始含水饱和度分布对热水驱油性能影响的数值研究
初始含水饱和度空间分布的非均质性影响着热水驱的性能。原油采收率降低的前景来自于粘性不稳定性的发展。在本研究中,将多孔介质中的热传导、多相流动与非等温流动相结合,建立了耦合的数值模拟模型,并用Buckley和Leverett已有的解析解对数值模型进行了验证。随着温度穿透深度的减小,在凝结锋处形成了波浪形的温度廓线。平均温升受初始含水饱和度空间分布的影响较大。黏性指状地层在储层中占主导地位,初始含水饱和度随机分布,导致前缘从驱油初期起呈不规则运动。具有初始水分布的非均质储层比均质储层更早形成粘指状。初始含水饱和度空间分布的非均质性导致了稠度失稳,降低了降粘率,降低了驱替扫油效率,提高了剩余油饱和度。目前的研究仅限于初始含水饱和度的空间分布,具有一定的非均质性。初始含水饱和度空间分布的非均质性严重影响了热水驱的生产效果。本研究为随机初始含水饱和度分布环境下热水驱的实施和未来发展提供了思路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.50
自引率
15.40%
发文量
50
审稿时长
12 weeks
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