Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation

Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation

This paper focuses on the stability of the high-level radioactive waste (HLW) in the proposed clay rock in Tamusu area of China. The in-situ stress as well as the variational characteristics of ambient temperature caused by nuclide decay during HLW storage should be noticeable. A series of thermal p...

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Main Authors: Haian Liang, Tan Tang, Longpeng Zhang, Xiaodong Liu, Shuai Liu, Ting Yang, Xinjun Cheng, Juan Zhang
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Geofluids
Online Access:http://dx.doi.org/10.1155/2021/8118021
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spelling doaj-1de264fef8e340169367d193551467d62021-09-27T00:52:28ZengHindawi-WileyGeofluids1468-81232021-01-01202110.1155/2021/8118021Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical SimulationHaian Liang0Tan Tang1Longpeng Zhang2Xiaodong Liu3Shuai Liu4Ting Yang5Xinjun Cheng6Juan Zhang7School of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringSchool of Civil and Architectural EngineeringThis paper focuses on the stability of the high-level radioactive waste (HLW) in the proposed clay rock in Tamusu area of China. The in-situ stress as well as the variational characteristics of ambient temperature caused by nuclide decay during HLW storage should be noticeable. A series of thermal property tests and thermo-mechanical coupled strength (T-M) tests of rock samples in the target formation are carried out. Then the stability of surrounding rock of an HLW under the combination of heat release from HLW and in-situ stress is simulated and analyzed by numerical method. Thermal properties of Tamusu clay rock samples are obtained by testing their thermal conductivity. In order to obtain the characteristics and the failure modes of rock samples at different temperatures, the T-M coupling experiments in the temperature range of 100°C are conducted. Numerical model for simulating the state of operation of the nuclear waste tank buried in the tunnel within 100 years is constructed. A thermal boundary by the heat release equation of HLW and the real in-situ stress level in Tamusu area are considered in the model. While, the variation law of surrounding rock’s temperature, stress, and deformation corresponding to the embedding time is obtained from the numerical calculation. Finally, the stability of the deep geological repository is comprehensively evaluated. The results show that the temperature has a significant impact on the T-M coupling characteristics of Tamusu clay rock, and the proposed repository numerical model has no large deformation and failure problems in 100 years. However, the temperature of the surrounding rock of the repository may exceed the safety standard value during the operation period.http://dx.doi.org/10.1155/2021/8118021
collection DOAJ
language English
format Article
sources DOAJ
author Haian Liang
Tan Tang
Longpeng Zhang
Xiaodong Liu
Shuai Liu
Ting Yang
Xinjun Cheng
Juan Zhang
spellingShingle Haian Liang
Tan Tang
Longpeng Zhang
Xiaodong Liu
Shuai Liu
Ting Yang
Xinjun Cheng
Juan Zhang
Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation
Geofluids
author_facet Haian Liang
Tan Tang
Longpeng Zhang
Xiaodong Liu
Shuai Liu
Ting Yang
Xinjun Cheng
Juan Zhang
author_sort Haian Liang
title Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation
title_short Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation
title_full Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation
title_fullStr Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation
title_full_unstemmed Stability Analysis of Host Claystone under T-M Coupling of HLW Disposal Repository in China: Experiments and Numerical Simulation
title_sort stability analysis of host claystone under t-m coupling of hlw disposal repository in china: experiments and numerical simulation
publisher Hindawi-Wiley
series Geofluids
issn 1468-8123
publishDate 2021-01-01
description This paper focuses on the stability of the high-level radioactive waste (HLW) in the proposed clay rock in Tamusu area of China. The in-situ stress as well as the variational characteristics of ambient temperature caused by nuclide decay during HLW storage should be noticeable. A series of thermal property tests and thermo-mechanical coupled strength (T-M) tests of rock samples in the target formation are carried out. Then the stability of surrounding rock of an HLW under the combination of heat release from HLW and in-situ stress is simulated and analyzed by numerical method. Thermal properties of Tamusu clay rock samples are obtained by testing their thermal conductivity. In order to obtain the characteristics and the failure modes of rock samples at different temperatures, the T-M coupling experiments in the temperature range of 100°C are conducted. Numerical model for simulating the state of operation of the nuclear waste tank buried in the tunnel within 100 years is constructed. A thermal boundary by the heat release equation of HLW and the real in-situ stress level in Tamusu area are considered in the model. While, the variation law of surrounding rock’s temperature, stress, and deformation corresponding to the embedding time is obtained from the numerical calculation. Finally, the stability of the deep geological repository is comprehensively evaluated. The results show that the temperature has a significant impact on the T-M coupling characteristics of Tamusu clay rock, and the proposed repository numerical model has no large deformation and failure problems in 100 years. However, the temperature of the surrounding rock of the repository may exceed the safety standard value during the operation period.
url http://dx.doi.org/10.1155/2021/8118021
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AT tantang stabilityanalysisofhostclaystoneundertmcouplingofhlwdisposalrepositoryinchinaexperimentsandnumericalsimulation
AT longpengzhang stabilityanalysisofhostclaystoneundertmcouplingofhlwdisposalrepositoryinchinaexperimentsandnumericalsimulation
AT xiaodongliu stabilityanalysisofhostclaystoneundertmcouplingofhlwdisposalrepositoryinchinaexperimentsandnumericalsimulation
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AT tingyang stabilityanalysisofhostclaystoneundertmcouplingofhlwdisposalrepositoryinchinaexperimentsandnumericalsimulation
AT xinjuncheng stabilityanalysisofhostclaystoneundertmcouplingofhlwdisposalrepositoryinchinaexperimentsandnumericalsimulation
AT juanzhang stabilityanalysisofhostclaystoneundertmcouplingofhlwdisposalrepositoryinchinaexperimentsandnumericalsimulation
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