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Performance Evaluation of Terrazyme as Soil Stabilizer | ||
Civil Engineering Infrastructures Journal | ||
دوره 56، شماره 2، اسفند 2023، صفحه 277-299 اصل مقاله (464.11 K) | ||
نوع مقاله: Research Papers | ||
شناسه دیجیتال (DOI): 10.22059/ceij.2022.342784.1841 | ||
نویسندگان | ||
Aswar D. S.* 1؛ M. N. Bajad2؛ Ambadkar S. D.3 | ||
1Ph.D. Candidate, Sinhgad College of Engineering, Pune, India. | ||
2Professor, Sinhgad College of Engineering, Pune, India. | ||
3Associate Professor, G.H. Raisoni University, Amravati, India. | ||
چکیده | ||
Literature published TerraZyme stabilization case studies are analyzed rationally for evaluating the performance of TerraZyme as a stabilizer. As a measure of the degree of stabilization, the percentage variation in soil index and engineering properties induced by enzyme treatment for various soil types are investigated. The literature shows inconsistent enzyme stabilization results. The causes of the inconsistency in test results and factors affecting the effectivity of enzyme stabilization are elaborated. The effect of soil characteristics on the efficacy of enzyme stabilization is analyzed. The results of enzyme treatment on soil properties such as Atterberg limits and indices, optimum moisture content, maximum dry density, unconfined compressive strength and California bearing ratio, for various soil groups with different enzyme doses and conditions of curing are also studied. An attempt has been made to quantify the attribute variation of treated soils, establishing, the underlying reasons, for the effectivity of enzyme stabilization and its performance within and among various soil groups. The effect of enzymatic treatment on each soil group is also classified. The research emphasizes the necessity of an elaborate organized study on the enzyme and soil characterization, to have a better knowhow of the effectiveness of enzymatic stabilization. | ||
کلیدواژهها | ||
Degree of Stabilization؛ Enzymes Stabilizers؛ Soil Classification؛ Soil Stabilization؛ Terrazyme | ||
مراجع | ||
Agarwal, P. and Kaur, S. (2014). “Effect of bio-enzyme stabilization on unconfined compressive strength of expansive soil”, International Journal of Research in Engineering and Technology (IJRET), 3(5), 30-33.
Aswar, D.S. Bajad, M.N. and Ambadkar, S.D. (2022). “Performance of TerraZyme for soil stabilization of various soil groups”, International Journal of Engineering Trends and Technology, 70(4), 258-271, http://doi.org/ 10.14445/22315381/IJETT-V70I4P222. Bergmann, R. (2000). Soil stabilizers on universally accessible trails, USDA Forest Service, San Dimas Technology and Development Center.
Brandon, F., Ding, C., Gary, H. and Charles, R. (2010). “Permazyme testing Volume I: Final testing summary report”, California State University.
Chakrapani, K. (2016). “An experimental study on black cotton soil stabilization by using Terazyme”, Ph.D. Thesis, Department of Civil Engineering, National Institute of Technology Rourkela.
Daigavane, P.B. and Ansari, A. (2021). “Stabilization of black cotton soil using Terrazyme”, New Arch-International Journal of Contemporary Architecture, 8(2), 316-321.
Dhanesh, I.S. and Mohandas, T.V. (2016). “Effect of bio-enzyme on geotechnical properties of Thonnakkal clay”, International Journal of Engineering Trends and Technology, 36(9), 474-476, http://doi.org/10.14445/22315381/IJETT-V36P286.
Farooq, T. and Sukhdeep, S. (2020). “Stabilization of black cotton soil by using bio-enzymes for pavement construction”, International Journal of Scientific Development & Research, 5(7), 687-693, http://dx.doi.org/10.13140/rg.2.2.19819.36649.
Guthrie, W.S., Simmons, D.O. and Eggett, D.L. (2015). “Enzyme stabilization of low-volume gravel roads”, Transportation Research Record, 2511(1), 112-120, http://dx.doi.org/10.3141/2511-13.
Isaac, K.P., Biju, P.B. and Veeraragavan, A. (2003). “Soil stabilization using bio-enzyme for rural roads”, Integrated Development of Rural an Arterial Road Networks for Socio-Economic Development, Delhi.
Indian Standards (IS): 1498. (1970). Classification and identification of soils for general engineering purposes, Bureau of Indian Standards (BIS).
Indian Standard (IS): 2720 (Parts 5,7,10,16). (1985). Method of test for soils, Bureau of Indian Standards (BIS).
Jenith P. and Parthiban M.C. (2017). “An experimental study of bio-enzyme on black cotton soil as a highway material”, International Journal of Engineering Research, 5(13), 4.
Kestler, M.A. (2009). “Stabilization selection guide for aggregate-and native-surfaced low-volume roads”, US Department of Agriculture, Forest Service, National Technology & Development Program.
Khan, T.A. and Taha, M.R. (2015). “Effect of three bioenzymes on compaction, consistency limits, and strength characteristics of a sedimentary residual soil”, Advances in Materials Science and Engineering, Hindawi, 2015(Article ID 798965), https://doi.org/10.1155/2015/79896
Kumar, A. and Kumar Khan, A. (2018). “Stabilization of expansive soil using bio-enzyme”, Indian Geotechnical Conference (IGC-2018), Indian Institute of Science Bengaluru, pp. 13-15.
Lacuoture, A. and Gonzalez, H. (1995). “Usage of organic enzymes for the stabilization of natural base soils and sub-bases in Bagota”, Pontificia Universidad Jevariana, Faculty of Engineering.
Marasteanu, M.O., Hozalski, R.M., Clyne, T.R. and Velasquez, R. (2005). “Preliminary laboratory investigation of enzyme solutions as a soil stabilizer”, Report No. MN/RC-2005-25, University of Minnesota, Department of Civil Engineering, Minneapolis, MN.
Mekonnen, E., Kebede, A., Tafesse, T. and Tafesse, M. (2020). “Application of microbial bioenzymes in soil stabilization”, International Journal of Microbiology, Hindawi, 2020(Article ID 1725482), https://doi.org/10.1155/2020/1725482.
Mgangira, M.B. (2009). “Evaluation of the effects of enzyme-based liquid chemical stabilizers on subgrade soils”, 28th Annual Southern African Transport Conference (SATC), 6-9 July, Pretoria, South Africa.
Milburn, J.P. and Parsons, R.L. (2004). “Performance of soil stabilization agents (No. K-TRAN: KU-01-8)”, Department of Transportation, Kansas.
Muguda, S. and Nagaraj, H.B. (2019). “Effect of enzymes on plasticity and strength characteristics of an earthen construction material”, International Journal of Geo-Engineering, 10(2), 1-14, https://doi.org/10.1186/s40703-019-0098-2.
Myint, N.N.N. and Swe, T.M. (2014). “Investigation into soil stabilization with Enzyme”.
Nandini, D., Amate, V. and Kumar, M.P. (2015). “Compaction and strength characteristics of terra-zyme stabilized red soil”, International Journal of Research Publications in Engineering, Technology and Management, 1(1), 1-3.
Nandini, D.N., Reddy, Y.R. and Gowda, T. (2019). “An experimental study on strength characteristics of enzymatic hypo sludge stabilized soil”, SAMRIDDHI: A Journal of Physical Sciences, Engineering and Technology, 11(SUP), 240-243.
Nandini, D.N, Gowda, T. and Reddy, Y.R. (2020a). “An experimental study on strength enhancement of locally available soil using Terrazyme”, International Journal of Future Generation Communication and Networking (IJFGCN), 13(3), 2902-2911.
Nandini, D.N. and Reddy, Y.R. (2020b). “Effect of bio enzymatic treatment on the strength characteristics of different soil samples”, International Journal of Advanced Science and Technology, 29(6), 5200-5209.
Nature Plus, Inc. (2021). “How terrazyme works?”, https://www.nature-plus.com/terrazyme-how-it-works, Retrieved on Dec 15, 2021.
North Dakota DOT Materials and Research Division, Experimental Study ND. (2014-01), “Evaluation of permazyme 11x™ soil stabilization work plan”, SS-4-053(015) 030, https://www.dot.nd.gov/divisions/materials/research_project/ND201401workplan.pdf.
Patel, U., Singh, S. and Chaudhari, S. (2018). “Effect of bio enzymeterrazyme on compaction, consistency limits and strength characteristics of expansive soil”, International Research Journal of Engineering and Technology, 5(3), 1602-1605.
Prakash, K. and Sridharan, A. (2004). “Free swell ratio and clay mineralogy of fine-grained soils”, Geotechnical Testing Journal, 27(2), 220-225.
Ramesh, H.N. and Sagar, S.R. (2015). “Effect of drying on the strength properties of terrazyme treated expansive and non-expansive soils”, 50th Indian Geotechnical Conference, Pune, India.
Rauch, A.F., Katz, L.E. and Liljestrand, H.M. (1993). “An analysis of the mechanisms and efficacy of three liquid chemical soil stabilizers: Volume 1”, Report No. 1993-1, FHWA/TX-03/1993-1 (Volume 1), Center for Transportation Research, The University of Texas at Austin, Austin, TX.
Ryan, L. and Norris, R. (2014). Cambridge international as and a level chemistry course book with CD-ROM, Cambridge University Press.
Saini, V. and Vaishnava, P. (2015). “Soil stabilization by using terrazyme”, International Journal of Advances in Engineering & Technology, 8(4), 566.
Scholen, D.E. (1992). “Nonstandard stabilizers”, Report FHWA-FLP-92-011, Washington, DC: Federal Highway Administration (FHWA), US Department of Transportation, July.
Scholen, D.E. (1995). “Stabilizer mechanisms in nonstandard stabilizers”, Transportation Research Board Conference Proceedings (No. 6).
Sen, J. and Singh, J.P. (2015). “Stabilization of black cotton soil using bio-enzyme for a highway material”, International Journal of Innovative Research in Science, Engineering and Technology, 4(12), 12453-12459.
Shah, K. and Shah, M. (2016). “Soil stabilization using terrazyme”, International Journal of Advance Engineering and Research Development, 3(12), 359-365.
Shaka, P.M. and Shaka, S.M. (2016). “Laboratory investigation on Black cotton soils and Red soil stabilized using Enzyme”, International Research Journal of Engineering and Technology, 3(6), 325-330.
Shankar, A.U., Rai, H.K. and Mithanthaya, R. (2009). “Bio-enzyme stabilized lateritic soil as a highway material”, Journal of the Indian Roads Congress, 70(2), 143-151.
Shukla, M., Bose, S. and Sikdar, P.K. (2003). “Bio-enzyme for stabilization of soil in road construction a cost-effective approach”, Presented at the IRC Seminar: Integrated Development of Rural and Arterial Road Networks for Socio-Economic Development, New Delhi, 5-6 December.
Sodhi, P.S. and Ocean, Y.K. (2018). “Stabilization of soil using alkaline bio-enzyme (Alkazyme)”, International Research Journal of Engineering and Technology, 5(8), 1681-1685.
Sweta, D. and Maheswar, M. (2017). “An investigation on behaviour of bio enzyme stabilized expansive soil”, International Journal of Recent Scientific Research, 8(8), 19029-19034, http://dx.doi.org/10.24327/ijrsr.2017.0808.0615.
Taha, M.R., Khan, T.A., Jawad, I.T., Firoozi, A.A. and Firoozi, A.A. (2013). “Recent experimental studies in soil stabilization with bio-enzymes”, Electronic Journal of Geotechnical Engineering, 18, 3881-3894.
Thomas, A., Tripathi, K. and Yadu, L.K. (2018). “A laboratory investigation of soil stabilization using enzyme and alkali-activated ground granulated blast-furnace slag”, Arabian Journal for Science and Engineering, 43(10), 5193-5202.
Tingle, J.S. and Santoni, R.L. (2003). “Stabilization of clay soils with nontraditional additives”, Transportation Research Record, 1819(1), 72-84.
Tingle, J.S., Newman, J.K., Larson, S.L., Weiss, C.A. and Rushing, J.F. (2007). “Stabilization mechanisms of nontraditional additives”, Transportation Research Record, 1989(1), 59-67.
Vastrad, M., Karthik, M., Dhanavandi, V. and Shilpa, M.S. (2020). “Stabilization of black cotton soil by using GGBS, lime and nano-silica”, International Journal of Research in Engineering, Science and Management, 3(9), 1-7.
Venkatasubramanian, C. and Dhinakaran, G. (2011). “Effect of bio-enzymatic soil stabilisation on unconfined compressive strength and California Bearing Ratio”, JEAS-Journal of Engineering & Applied Sciences, 6(5), 295-298.
Vinay Kumar, K.S., Harikeerthan, M.K., Jayatheertha, H.S. and Girish, P. (2020). “Effect of bio enzyme on index & engineering properties of expansive soil”, International Research Journal of Engineering and Technology (IRJET), 7(9), 2974-2977.
Woll, J.H., Surdahl, R.W., Everett, R. and Andresen, R. (2008). Road stabilizer product performance: seedskadee national wildlife refuge (No. FHWA-CFL/TD-08-005), Central Federal Lands Highway Division, FHWA, U.S. Department of Transportation, Lakewood, Colo.
Zhang, X., Zhang, X.P., Peng, H.T., Xia, Q. and Wang, J. (2013). “Relation of microstructure and unconfined compression strength of soil stabilized with TerraZyme,” Advanced Materials Research, Vol. 664, pp. 760-763, Trans Tech Publications Ltd. | ||
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