Review of Jet Grouting Practice around the World

محتوى المقالة الرئيسي

Rana M. Al-Khadaar
Mahmood D. Ahmed

الملخص

This paper aims to make a historical review of jet grouting techniques and encountered problems at different sites in several countries.  This review is a good guide to understanding the performance and limitations of improved soils or lands. The basic concept of jet grouting technology is to use cement as a binder to accelerate the hardening process of an admixture of material grout and soil. The different case history was conducted in both sand soil and clay soil in the horizontal and vertical direction. Other papers on field construction showed that the grout can be gelled within 5-10 minutes. Due to different cases and studies, these will help improve soil by supporting the foundation load with a minimal settlement. The Jet grouting technology can be used in difficult situations, confined and unconfined areas, or places with light equipment. Although the jet grouting technique is an ideal modification technique compared to reinforcement and ground treatment support or serves the foundation, Dams and excavations will save time and cost and increase the bearing capacity.

تفاصيل المقالة

كيفية الاقتباس
"Review of Jet Grouting Practice around the World" (2023) مجلة الهندسة, 29(07), ص 48–70. doi:10.31026/j.eng.2023.07.04.
القسم
Articles

كيفية الاقتباس

"Review of Jet Grouting Practice around the World" (2023) مجلة الهندسة, 29(07), ص 48–70. doi:10.31026/j.eng.2023.07.04.

تواريخ المنشور

المراجع

ABEF, 2012. Manual de Execução de Fundações e Geotecnia - Práticas Recomendadas. Pini, São Paulo, pp. 441-466.

Ahmed, M. D., and Hamza, N. A., 2015. Effect of metakaolin on the geotechnical properties of expansive Soil. Journal of Engineering, 21(12), pp. 29-45. Doi:10.31026/j.eng.2015.12.03

Akin, M., Akkaya, İ., Akin, M. K., Özvan, A., and Ak, Y., 2019. Impact of jet-grouting pressure on the strength and deformation characteristics of sandy and clayey soils in the compression zone. KSCE Journal of Civil Engineering, 23, pp. 3340-3352. Doi:10.1007/s12205-019-2274-5.

Aksoy, E. I., 2020. İki tür zeminin farklı basınçlarda jet grout ile mekanik özelliklerinin belirlenmesi. Hasan Kalyoncu Üniversitesi.

Al-Hadidi, M. T., and Al-Maamori, Z. H. N., 2019. Improvement of earth canals constructed on gypseous soil by soil cement mixture. Journal of Engineering, 25(3), pp. 23-37 Doi:10.31026/j.eng.2019.03.03.

Al-Malkee, F. W., and Ahmed, M. D., 2021. Laboratory Study on the Effect of Water-Cement Ratio on Strength Characteristics of Jet Grouting Columns. Journal of Engineering, 27(12), pp. 33-49 Doi:10.31026/j.eng.2021.12.04.

Al Adili, A., Azzam, R., Spagnoli, G., and Schrader, J., 2012. Strength of soil reinforced with fiber materials (Papyrus). Soil Mechanics and Foundation Engineering, 48, pp. 241-247 Doi:10.1007/s11204-012-9154-z.

Ali, H. A., and Yousuf, Y. M., 2016. Improvement of shear strength of sandy soil by cement grout with fly ash. Journal of Engineering, 22(12), pp. 16-34. Doi:10.31026/j.eng.2016.12.02.

Alimohammadi, H., Amirmojahedi, M., and Tahat, J. N., 2022. A case history of application of deep compaction method with comparison to different ground improvement techniques. Transportation Infrastructure Geotechnology, pp. 1-26. Doi:10.1007/s40515-022-00229-3.

Baker, H., 2012. Hayward Baker Geotechnical Construction. Unpublished (www. haywardbaker. com: Accessed on the 12 th of March 2012). (www.HaywardBaker.com).

Bogati, K., 2019. Ground Improvement by Jet Grouting Techniques. Bachelors thesis, HAMK University of applied Science.

Bzowka, J., 2012. Analysis of bearing capacity and settlement of jet grouting columns. Architecture Civil Engineering Environment, 5, pp. 41-54.

Chu, J., and Yan, S., 2005. Application of the vacuum preloading method in soil improvement projects. Elsevier geo-engineering book series. Doi:10.1016/S1571-9960(05)80006-0.

Chuaqui, M., Hu, F., Gurpersaud, N., and Lees, D., 2012. A Case Study: Two-fluid jet grouting for Tunneling Application–Soil stabilization and permeability reduction. 4th International Conference on Grouting and Deep Mixing, pp. 1-12. Doi:10.1061/9780784412350.0070.

Croce, P., Flora, A., Lirer, S., Manassero, V., Modoni, G., and Siepi, M., 2012. Raccomandazioni sul jet grouting. Linee Guida. AGI.

De Oliveira, Renato M. D. S., 2011. Evaluating the performance of jet grouting for reinforcement of port structure. Pan-Am, CGS. Geptechnical conference.

Debost, C., Mathieu, F., and Yates, M., 2017. Jet Grouting within Contaminated Land Fill. Grouting 2017 Doi:10.1061/9780784480809.014.

Durgunoglu, H. T., Chinchelli, M., Ikiz, S., Emrem, C., Hurley, T., and Catalbas, F., 2004. Soil improvement with jet-grout columns: A case study from the 1999 Kocaeli earthquake. Proceedings of Fifth International Conference on Case Histories in Geotechnical Engineering, University of Missouri--Rolla

Fang, Y.S., Liao, J.J., and Lin, T.K., 1994. Mechanical properties of jet grouted soilcrete. Quarterly Journal of Engineering Geology and Hydrogeology, 27, pp. 257-265 Doi:10.1144/GSL.QJEGH.1994.027.P3.06.

Getec, M. 2004. Messchirm Anleitungen. Keller Grund-bau Report.

Giorgio Guatteri, A. C. D., Joseph L. Kauschinger, Edward C. Perry., 1988. Advances in the Construction and Design of Jet Grouting Methods in South America. Proceedings: Second Internatonal Conference on Case Histories in Geotechnical Engineering June 1-5. Missouri. 11.

Güllü, H., Canakci, H., and Al Zangana, I. F. 2017. Use of cement based grout with glass powder for deep mixing. Construction and Building Materials, 137, pp. 12-20 Doi:10.1016/j.conbuildmat.2017.01.070.

Gürbüz, Ç. 2019. Numerical modeling of jet grouting cells to reduce liquefaction. Izmir Institute of Technology (Turkey).

Hamidi, B., Krzeminski, M., Berthier, D., Vincent, P., and Yates, M., 2010. The application of jet grouting for the construction of Sydney International Airport runway end safety area. Australian Geomechanics, 45(4), P. 21.

Huang, S.G., Zhang, T., and Cao, H., 2022. A Calculation Model of Grout Migration Height for Post-Grouting Technology. Applied Sciences, 12, P. 6327. Doi:10.3390/app12136327.

Inazumi, S., Shakya, S., Komaki, T., and Nakanishi, Y., 2021. Numerical analysis on performance of the middle-pressure jet grouting method for ground improvement. Geosciences, 11, P. 313 Doi:10.3390/geosciences11080313.

Ji, H., 2008. Physical modelling of jet grouting process. University of Cambridge.

Juge, B., 2012. Elastic properties of jet-grouted ground and applications. Texas A and M University College Station, TX, USA.

Keller, K., 2017. International Geotechnical Contractors. Retrieved 26 Jan. 2019 from (http://www.Kellerholding.com/video-reader/video-jet-grouting-soilcrete.html).

Kimpritis, T., Standing, J. R., and Thurner, R., 2018. Estimating column diameters in jet-grouting processes. Proceedings of the Institution of Civil Engineers-Ground Improvement, 171, pp. 148-158 Doi:10.1680/jgrim.17.00001.

Lees, D., and Gurpersaud, N., 2020. Recent Applications of Jet grouting in the Prairies. in GeoCalgary conference, Keller Foundations, Acton, Ontario, Canada. November

Ludemann, S., Garcia, R., Barbosa, M., and Cavalcante, A., 2018. A Contingency Solution using Jet Grouting Barrier for a Dam under Risk of Piping in Brazil. Soils and Rocks, 41, pp. 17-31 Doi:10.28927/SR.411017.

Manne, A., Prasad, P.V.S.R., and Annam, M.K., 2020. Application of jet grouting for geotechnical challenges. In Construction in Geotechnical Engineering: Proceedings of IGC 2018 (pp. 565-577). Singapore: Springer Singapore. Doi:10.1007/978-981-15-6090-3_41.

Martin, L., Alizadeh, V., and Meegoda, J., 2019. Electro-osmosis treatment techniques and their effect on dewatering of soils, sediments, and sludge: A review. Soils and Foundations, 59, pp. 407-418 Doi:10.1016/j.sandf.2018.12.015.

Moayed, R. Z., and Azini, E., 2020. Evaluation of Numerical Modeling of Jet Grouting Design Using in situ Loading Test. International Journal of Geotechnical and Geological Engineering, 14, pp. 125-130.

Modoni, G., Croce, P., and Mongiovi, L., 2006. Theoretical modelling of jet grouting. Géotechnique, 56, pp. 335-347. Doi:10.1680/geot.2006.56.5.335.

Modoni, G., Wanik, L., Maria, C. M., Salvatore, E., Bzówka, J., Shui-Long, S., Daniele, V., and Pingue, L., 2019. Strength of sandy and clayey soils cemented with single and double fluid jet grouting. Soils and Foundations, 59, pp. 942-954. Doi:10.1016/j.sandf.2019.03.007.

Nakanishi, W., 1974. Method for forming an underground wall comprising a plurality of columns in the earth and soil formation. Google Patents.

Ni, J. C., and Cheng, W.C., 2014. Quality control of double fluid jet grouting below groundwater table: case history. Soils and foundations, 54, pp. 1039-1053 Doi:10.1016/j.sandf.2014.11.001.

Nikbakhtan, B., Ahangari, K. & Rahmani, N. 2010. Estimation of jet grouting parameters in Shahriar dam, Iran. Mining Science and Technology (China), 20, pp. 472-477. Doi:10.1016/S1674-5264(09)60228-3.

Nikbakhtan, B., Apel, D., and Ahangari, K., 2015a. Jet grouting: mathematical model to predict soilcrete column diameter-part I. International Journal of Mining and Mineral Engineering, 6, pp. 46-56. Doi:10.1504/IJMME.2015.067950.

Nikbakhtan, B., Apel, D., and Ahangari, K., 2015b. Jet grouting: using artificial neural networks to predict soilcrete column diameter-part II. International Journal of Mining and Mineral Engineering, 6, pp. 57-71 Doi:10.1504/IJMME.2015.067951.

Njock, P. G. A., Chen, J., Modoni, G., Arulrajah, A., and Kim, Y.H., 2018. A review of jet grouting practice and development. Arabian Journal of Geosciences, 11, pp. 1-31. Doi:10.1007/s12517-018-3809-7.

Rabaiotti, C., Malecki, C., Amstad, M., and Puzrin, A. M., 2015. Pre-stressing of soil and structures due to jet grouting. Proceedings of the Institution of Civil Engineers - Geotechnical Engineering, 168, pp. 335-347. Doi:10.1680/geng.14.00112.

Rollins, K., Adsero, M., and Brown, D., 2008. Use of Jet Grouting to Increase Lateral Pile Group Resistance in Sofy Clay. The 14 th World Conference on Earthquake Engineering, Beijing, China. Doi:10.1061/41023(337)34.

Saglamer, A., Duzceer, R., Gokalp, A., and Yilmaz, E., 2001. Recent applications of jet grouting for soil improvement in Turkey. 15th International Conference on Soil Mechanics and Geotechnical Engineering , İstanbul, Turkey, pp.1839-1842.

Severino, A., Wahrhaftig, A. D. M., Tiutkin, O., Gubashova, V., and Neduzha, L., 2022. Effective Jet-Grouting Application for Improving the State of Deformation of Landmarks. Buildings, 12, P. 368 Doi:10.3390/buildings12030368.

Shen, S., Wang, Z., Yang, J., and Ho, C., 2013. Generalized approach for prediction of jet grout column diameter. Journal of Geotechnical and Geoenvironmental Engineering, 139(12), pp. 2060-2069

Shinsaka, T., and Yamazaki, J. 2013. Development of high-speed type jet grouting method. Proceedings of Geotechnics for Sustainable Development, Hanoi, Vietnam, pp. 28-29.

Stark, T. D., Axtell, P. J., Lewis, J. R., Dillon, J. C., Empson, W. B., Topi, J. E., and Walberg, F. C., 2009. Soil inclusions in jet grout columns. DFI Journal-The Journal of the Deep Foundations Institute, 3, pp. 33-44 Doi:10.1179/dfi.2009.004.

Taha, A., 1992. Properties of cement-based grouts and soilcrete and applications of jet grouting. Akron: The University of Akron.

Tran-Nguyen, H.H., and Ly, N. H., 2020. Quality Assessment of Field Soilcrete Created by Jet Grouting in the Mekong Delta. ICSCEA 2019. Springer Doi:10.1007/978-981-15-5144-4_75.

Tran-Nguyen, H., Le, T., and Ly, T., 2013 Soilcrete characteristics created by a single Jet Grouting system in Ho Chi Minh City. Proceedings of the 2nd international conference on Geotechnics for sustainable development, Hanoi, Nov, pp. 28-29.

Tran, D., and Armediaz, Y., 2021. On The Modelling of Jet Grouting For Deep Excavation Analysis-Assessing the Suitability of Shotcrete Material Model for Field Applications.

Xanthakos, P. P., Abramson, L. W., and Bruce, D. A., 1994. Ground control and improvement, John Wiley & Sons.

المؤلفات المشابهة

يمكنك أيضاً إبدأ بحثاً متقدماً عن المشابهات لهذا المؤلَّف.