A novel semi-theoretical model for hydraulic conductivity prediction considering temperature effect

It is of great significance to accurately characterize fluid migration within fractures under thermal-mechanical coupling condition for deep ground engineering, especially for the nuclear waste disposal engineering. Previous efforts characterizing hydraulic properties of fractures have focused on ro...

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Published inCase studies in thermal engineering Vol. 71; p. 106188
Main Authors Li, Jiahua, Chen, Shiwan, Wu, Ruyun, Zhu, Yuhang, An, Senyou
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2025
Elsevier
Subjects
Beishan granite
Cyclic loading
Hydraulic aperture
Mechanical aperture
Seepage model
Cyclic loading
Beishan granite
Seepage model
Mechanical aperture
Hydraulic aperture
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Abstract It is of great significance to accurately characterize fluid migration within fractures under thermal-mechanical coupling condition for deep ground engineering, especially for the nuclear waste disposal engineering. Previous efforts characterizing hydraulic properties of fractures have focused on room temperature, and it is difficult to deep understand the deformation-seepage coupling process of rock fractures under temperature. Thus, models derived from in this condition have been limited in their predictive ability for fracture seepage. This paper addresses the key challenge through well-designed experiments, combined with the improved BB model and the cubic law. The fracture deformation was separated from single-fractured granite during normal cyclic loading. The deformation and hydraulic properties of granite fractures under thermal-mechanical coupling were analyzed in detail. A linear relationship between hydraulic aperture and mechanical aperture considering temperature effect is established. A stress-deformation-seepage model considering temperature and cyclic loading history effect is proposed, and the accuracy of the model is verified. This study can provide reference for nuclear waste geological disposal project.
AbstractList It is of great significance to accurately characterize fluid migration within fractures under thermal-mechanical coupling condition for deep ground engineering, especially for the nuclear waste disposal engineering. Previous efforts characterizing hydraulic properties of fractures have focused on room temperature, and it is difficult to deep understand the deformation-seepage coupling process of rock fractures under temperature. Thus, models derived from in this condition have been limited in their predictive ability for fracture seepage. This paper addresses the key challenge through well-designed experiments, combined with the improved BB model and the cubic law. The fracture deformation was separated from single-fractured granite during normal cyclic loading. The deformation and hydraulic properties of granite fractures under thermal-mechanical coupling were analyzed in detail. A linear relationship between hydraulic aperture and mechanical aperture considering temperature effect is established. A stress-deformation-seepage model considering temperature and cyclic loading history effect is proposed, and the accuracy of the model is verified. This study can provide reference for nuclear waste geological disposal project.
ArticleNumber 106188
Author An, Senyou
Chen, Shiwan
Li, Jiahua
Zhu, Yuhang
Wu, Ruyun
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  givenname: Shiwan
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  fullname: Chen, Shiwan
  email: swchen@gzu.edu.cn
  organization: College of Resources and Environment Engineering, Guizhou University, Guiyang, China
– sequence: 3
  givenname: Ruyun
  surname: Wu
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  organization: College of Resources and Environment Engineering, Guizhou University, Guiyang, China
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  fullname: Zhu, Yuhang
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– sequence: 5
  givenname: Senyou
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  organization: College of Civil and Transportation Engineering, Institute of Deep Earth Sciences and GreenEnergy, Shenzhen University, Shenzhen, China
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Keywords Cyclic loading
Beishan granite
Seepage model
Mechanical aperture
Hydraulic aperture
Language English
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Snippet It is of great significance to accurately characterize fluid migration within fractures under thermal-mechanical coupling condition for deep ground...
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StartPage 106188
SubjectTerms Beishan granite
Cyclic loading
Hydraulic aperture
Mechanical aperture
Seepage model
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Title A novel semi-theoretical model for hydraulic conductivity prediction considering temperature effect
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