References
- Alzoubi, M.A., Madiseh, A., Hassani, F.P., and Sasmito, A.P. (2019), "Heat Transfer Analysis in Artificial Ground Freezing under High Seepage: Validation and Heatlines Visualization", Int. J. of Thermal Sciences, Vol.139, pp.232-245. https://doi.org/10.1016/j.ijthermalsci.2019.02.005
- Andersland, O.B. and Ladanyi, B. (2004), "Frozen ground engineering (Second edition).", John & Wiley Sons.
- Comsol Inc, Comsol Multiphysics User's Manual Ver. 5.5, 2020. USA.
- Crippa, C. and Manassero, V. (2006), "Artificial Ground Freezing at Sophiaspoortunnel (The Netherlands). Freezing Parameters: Data Acquisition and Processing", Proceeding of GeoCongress 2006: Geotechnical Engineering in the Information Technology Age, Civil Engineering in the Arctic Offshore, Atlanata, pp.1-6.
- Han, L., Ye, G., Li, Y., Xia, X., and Wang, J. (2016), "In Situ Monitoring of Frost Heave Pressure during Cross Passage Construction Using Ground-freezing Method", Canadian Geotechnical Journal, Vol.53, pp.530-539. https://doi.org/10.1139/cgj-2014-0486
- Huang, S., Guo, Y., Liu, Y. Ke, L., Liu, G., and Chen, C. (2018), "Study on the Influence of Water Flow on Temperature Around Freeze Pipes and its Distribution Optimization during Artificial Ground Freezing", Applied Thermal Engineering, Vol.35, pp.435-5.
- Tuksu (2007), "Research on the Development of Design and Construction Techniques of Artificial Ground Freezing to Construction Application", Tuksu Engineering & Construction, Report RPO3398, Korea.
- Lao, L., Ji, Z., Huang, L., and Li, S. (2017), "Research on the Temperature Field of a Partially Freezing Sand Barrier with Groundwater Seepage", Sciences in Cold and Arid Regions, Vol.9, pp. 280-288.
- Li, Z., Chen, J., Sugimoto, M., and Ge, H. (2019), "Numerical Simulation Model of Artificial Ground Freezing for Tunneling under Seepage Flow Conditions", Tunnelling and Underground Space Technology, Vol.92, 103035. https://doi.org/10.1016/j.tust.2019.103035
- Marwan, A., Zhou, M., Abdelrehim, M.Z., and Meschke, G. (2016), "Optimization of Artificial Ground Freezing in Tunneling in the Presence of Seepage Flow", Computers and Geotechnics, Vol.75, pp.112-125. https://doi.org/10.1016/j.compgeo.2016.01.004
- Papakonstantinou, S., Anagnostou, G., and Pimentel, E. (2013), "Evaluation of Ground Freezing Data from the Naples Subway", Proceedings of the Institution of Civil Engineers-Geotechnical Engineering, Vol.166, Issue. GE3, pp.280-298. https://doi.org/10.1680/geng.10.00099
- Pimentel, E., Papakonstantinou, S., and Anagnostou, G. (2012a), "Numerical Interpretation of Temperature Distributions from Three Ground Applications in Urban Tunnelling", Tunnelling and Underground Space Technology, Vol.28, pp.57-69. https://doi.org/10.1016/j.tust.2011.09.005
- Pimentel, E., Sres, A., and Anagnostou, G. (2012b), "Large-scale Laboratory Tests on Artificial Ground Freezing under Seepage-flow Conditions", Geotechnique, Vol.62, No.3, pp.227-241. https://doi.org/10.1680/geot.9.P.120
- Shin, H., Kim, J., and Lee, J. (2018), "Effect of Groundwater Flow on Ice-wall Integrity", J. of the Korean Geotechnical Society, Vol. 34, No.11, pp.43-55. https://doi.org/10.7843/KGS.2018.34.11.43
- Vitel, M., Rouabhi, A., Tijani, M., and Guerin, F. (2016), "Modeling Heat and Mass Transfer During Ground Freezing Subjected to High Seepage Velocities", Computers and Geotechnics, Vol.73, pp.1-15. https://doi.org/10.1016/j.compgeo.2015.11.014
- Yang, X., Ji, Z., Zhang, P., and Qi, J. (2019), "Model Test and Numerical Simulation on the Development of Artificially Freezing Wall in Sandy Layers Considering Water Seepage", Transportation Geotechnics, Vol.21, 100293. https://doi.org/10.1016/j.trgeo.2019.100293