A study on the effects of fault architecture on fluid circulation in the Gediz Graben by the finite volume method

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
D. Dusunur Dogan
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引用次数: 0

Abstract

It is widely recognized that in geothermal fields, meteoric water infiltrates deep into the subsurface of the earth and then travels through cracks and fractures, returning to the surface as it becomes heated. The patterns of fluid flow are primarily determined by the interaction between forces driven by gravity and pressure gradients. The ultimate forms of fluid flow patterns are primarily determined by the anisotropies of permeability associated with fault zones. In this study, a series of numerical simulations utilizing the finite volume approach were conducted to investigate the effects of fault zone architecture on fluid flow patterns and temperature distributions. Four distinct types of fault zone architecture were created in the simulations, including localized barrier, combined conduit-barrier, localized conduit, and distributed conduit. The results revealed that fault zone architecture has only a minor effect on fluid flow velocities and temperature distributions, except in cases along faults with very high permeabilities. The simulations suggest that this type of 2-D numerical modeling can be easily applied and utilized in other faulted geothermal systems.

用有限体积法研究断层构造对格迪兹地堑流体循环的影响
人们普遍认为,在地热田中,大气水渗入地下深处,然后穿过裂缝和裂缝,在加热后返回地表。流体的流动模式主要由重力和压力梯度驱动的力之间的相互作用决定。流体流动模式的最终形式主要是由与断裂带相关的渗透率各向异性决定的。本文利用有限体积法进行了一系列数值模拟,研究了断裂带构造对流体流动模式和温度分布的影响。模拟结果显示了四种不同类型的断裂带结构,包括局部屏障、组合导管-屏障、局部导管和分布导管。结果表明,除了高渗透率断层外,断裂带结构对流体流速和温度分布的影响很小。模拟结果表明,这种二维数值模拟方法可以很容易地应用于其他断层地热系统。
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来源期刊
Solid Earth Sciences
Solid Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
5.00%
发文量
20
审稿时长
103 days
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