Advanced search
Publication Cover
Geomatics, Natural Hazards and Risk Volume 10, 2019 - Issue 1
Submit an article Journal homepage
1,493
Views
16
CrossRef citations to date
0
Altmetric
Articles

Study on the risk assessment of water inrush in karst tunnels based on intuitionistic fuzzy theory

Yingchao WangState Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining & Technology, Xuzhou, China; ;School of Mechanics & Civil Engineering, China University of Mining & Technology, Xuzhou, China; View further author information
,
Fan ChenState Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining & Technology, Xuzhou, China; View further author information
,
Xin YinSchool of Mechanics & Civil Engineering, China University of Mining & Technology, Xuzhou, China; Correspondence[email protected]
View further author information
&
Fan GengSchool of Electric Power Engineering, China University of Mining & Technology, Xuzhou, ChinaView further author information
Pages 1070-1083 | Received 05 Apr 2018, Accepted 20 Dec 2018, Published online: 11 Feb 2019

References

  • Bai MZ, Xu ZY, Gong LJ. 2006. Study on geological hazards in tunnel construction in complex karst area. Chin J Safety. 16:114–118.
  • Chen L, Huang HW. 2005. Risk analysis of rock tunnel engineering. Chin J Rock M Eng. 24:110–115.
  • Du YC, Han XR, Li ZL. 2009. Professional evaluating system for karst tunnel gushing based on AHP and its application. Carsol Sin. 28:281–287.
  • Ge YH. 2010. Study on risk assessment and early warning mechanism of water inrush in karst tunnel. Jinan: Shandong University.
  • Gong F, Chen XM. 2018. Study on the evaluation of ecological livable city in anhui based on intuitionistic fuzzy theory. J Chongqing Technol Business Univ. ( Nat Sci Ed). 35(4): 30–36.
  • Goodman R, Moye D, Schalkwyk A, Javendel I. 1965. Ground-water inflow during tunnel drivingEng. Geol Bull IAEG. 2:39–56.
  • Han XR. 2004. Karst water bursting in tunnel and expert judging system. Carsol Sin. 23:213–218.
  • Heuer R. 1995. Estimating rock tunnel water inflow. Proceedings of Rapid Excavation and Tunnelling Conference. p. 41–60.
  • Heuer R. 2005. Estimating rock tunnel water inflow—II. Proceedings of Rapid Excavation and Tunnelling Conference. p. 394–407.
  • Huang HW. 2006. State-of- the-art of the research on risk management in construction of tunnel and underground works. Chin J under S Eng. 1:13–20.
  • Jiang FX, Ye GX, Wang CW, Zhang DY, Guan YQ. 2008. Application of high-precision microseismic monitoring techniqueto water inrush monitoring in coal mine. Chin J Rock Mech Eng. 27:1932–1938.
  • Kong WK. 2011. Water ingress assessment for rock tunnels: a tool for risk planning. Rock Mech Rock Eng. 44(6):755–765.
  • Li W. 2009. Mechanism and model analysis of water inrush in highway tunnel construction in Karst Mountain Area. J Guizhou Univ. 26:125–128.
  • Li LP, Li SC, Chen J, Li JL, Xu ZH, Shi SS. 2011. Construction license mechanism and its application based on karst water inrush risk evaluation. Chin J Rock Mech Eng. 30:1345–1355.
  • Li SC, Liu B, Nie L, Liu Z, Tian M, Wang S, Su X, Guo Q. 2015a. Detecting and monitoring of water inrush in tunnels and coalmines using direct current resistivity method: a review. J Rock Mech Geotech Eng. 7(4):469–478.
  • Li LP, Tu WF, Shi SS, Chen JX, Zhang YH. 2016. Mechanism of water inrush in tunnel construction in karst area. Geomat Nat Haz Risk. 7(Suppl. 1):35–46.
  • Li SC, Zhou ZQ, Li LP, Shi SS, Xu ZH. 2013a. Risk evaluation theory and method of water inrush in karst tunnels and its applications. Chin J Rock Mech Eng. 32:1858–1867.
  • Li SC, Zhou ZQ, Li LP, Xu ZH, Zhang QQ, Shi SS. 2013b. Risk assessment of water inrush in karst tunnels based on attribute synthetic evaluation system. TunnUndergr Space Technol. 38:50–58.
  • Li LP, Zhou ZQ, Li SC, Xue YG, Xu ZH, Shi SS. 2015b. An attribute synthetic evaluation system for risk assessment of floor water in rush in coal mines. Mine Water Environ. 34(3):288–294.
  • Mao BY, Xu M, Jiang LW. 2010. Preliminary study on risk assessment of water and mud inrush in karst tunnel. Carsologica Sinica. 29:183–189.
  • McFeat-Smith I, Turner VD, Bracegirdle DR. 1985. Bracegirdle tunnelling conditions in Hong Kong. Hong Kong Engineer. 13:13–25.
  • Raymer JH. 2001. Predicting groundwater inflow into hard-rock tunnels: estimating the high-end of the permeability distribution. Proceedings of Rapid Excavation and Tunnelling Conference. p. 1027–1038
  • Saaty TL. 2008. Decision making for leaders: the analytic hierarchy process for decisions in a complex world. Pittsburgh, Pennsylvania: RWS Publications. ISBN 0-9620317-8-X.
  • Shen XM, Liu PL, Wang JF. 2010. Evaluation of water inrush risks of karst tunnel with analysis hierarchy process. J. Rail Eng Soc. 12:56–63.
  • Shi SS, Bu L, Li SC, Xiong ZM, Xie XK, Li LP, Zhou ZQ, Xu ZH, Ma D. 2017. Application of comprehensive prediction method of water inrush hazards induced by unfavourable geological body in high risk karst tunnel: a case study. Geomat Nat Haz Risk. 8(2):1407–1423.
  • Wang D. 2008. Prediction of water inflow and its impact on construction of a karst tunnel in Shaoguan section of Wuhan Guangzhou line. Chengdu: Southwest Jiao Tong University.
  • Wang YC, Geng F, Yang SQ, Jing HW, Meng B. 2019. Numerical simulation of particle migration from crushed sandstones during groundwater inrush. J. Hazard Mater. 362:327–335.
  • Wang Y, Huang HW, Xue YD. 2009. Risk analysis of collapse for tunnels constructed by drill and blast method. J. Shenyang Jianzhu Univ Nat Sci. 25:23–27.
  • Wang Y, Jing H, Han L, Yu L, Zhang Q. 2014. Risk analysis on swell–shrink capacity of expansive soils with efficacy coefficient method and entropy coefficient method. Appl Clay Sci. 99:275–281.
  • Wang YC, Jing HW, Su HJ. 2017b. Effect of a fault fracture zone on the stability of tunnel-surrounding rock. Int J Geomech. 17:1–20.
  • Wang Y, Jing H, Yu L, Su H, Luo N. 2017a. Set pair analysis for risk assessment of water inrush in karst tunnels. Bull Eng Geol Environ. 76(3):1199–1207.
  • Wang YN, Lei YJ, Wang Y. 2016c. Intuitionistic fuzzy time series model based on intuitionistic fuzzy reasoning. Syst Eng Electron. 6:1332–1338.
  • Wang Y, Yin X, Geng F, Jing H, Su H, Liu R. 2017c. Risk assessment of water inrush in karst tunnels based on the efficacy coefficient method. Pol J Environ Stud. 26(4):1765–1775.
  • Wang YC, Yin X, Jing HW. 2016a. A novel cloud model for risk analysis of water inrush in karst tunnels. Environ Earth Sci. 75:1–13.
  • Wang YC, Zhao N, Jing HW. 2016b. A novel model of the ideal point method coupled with objective and subjective weighting method for evaluation of surrounding rock stability. Math Probl Eng. 4:1–9.
  • Ye ZH, Han XR, Zhang GM. 2006. Application of expert’s judging system in predicting karst water bursting in Zhujiayan tunnel. Carsologica Sinica. 25:139–145.
  • Zhao M, Ren RR, Qiu WH. 2015. Experts’ weights method and computational experiment analysis based on intuitionistic fuzzy entropy measures. Contr Decis. 7:1233–1238.
  • Zhou ZQ, Li SC, Li LP, Shi SS, Song SG, Wang K. 2013. Attribute recognition model and its application of fatalness assessment of water inrush in karst tunnels. Rock Soil Mech. 34:818–826.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.