Abstract
Transportation of fugitive dust over long distances because of wind erosion is a severe environmental threat. Different approaches are experienced to control wind erosion, but durability and costs are the main drawbacks of existing techniques. This study hereby investigates sodium silicate usage as an alkaline additive to bind soil particles and control wind erosion. Sodium silicate is an environmentally safe material and the precipitated inorganic silica gel from which has the affinity with soil texture that makes the overall geopolymerization materials and method clean and environmentally friendly. The neutral condition of natural soils can reduce the alkalinity of sodium silicate’s alkalinity upon contact to the silica gel formation and soil geopolymerization. Different water-diluted solutions containing 50, 35, 20 wt% sodium silicate were prepared and sprayed over the soil surface while various specifications of the stabilized part were evaluated. It was found that interparticle cohesion, shear strength, and wind erosion were affected by sodium silicate content, as explained through a series of immersion, direct shear, and wind tunnel tests. A combination of mechanical and chemical forces can explain the interparticle cohesion since no chemical bonding was established between silica gel and soil particles, as described in Fourier-transform infrared spectroscopy analysis. Scanning electron microscopy coupled with energy-dispersive spectroscopy and thermogravimetric experiment displayed soil particles’ aggregation without mineralogical alteration. The achieved results implicate sodium silicate’s promising role as a stabilizer to bind the soil particles and control wind erosion.
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References
Alp I, Deveci H, Sungun YH, Yilmaz AO, Kesimal A, Yilmaz E (2009) Pozzolanic characteristics of a natural raw material for use in blended cements Iranian. J Sci Technol Trans B Eng 33(4):291–300
Arnoult M, Perronnet M, Autef A, Rossignol S (2018) How to control the geopolymer setting time with the alkaline silicate solution. J Non-Cryst Solids 495:59–66
Bangi UK, Jung I-K, Park C-S, Baek S, Park H-H (2013) Optically transparent silica aerogels based on sodium silicate by a two step sol–gel process and ambient pressure drying. Solid State Sci 18:50–57
Behnood A (2018) Soil and clay stabilization with calcium-and non-calcium-based additives: A state-of-the-art review of challenges, approaches and techniques. Transp Geotech 17:14–32
Blanco H, Lal R (2008) Principles of soil conservation and management, vol 167169. Springer, Dordrecht
Canakci H, Güllü H, Alhashemy A (2019) Performances of using geopolymers made with various stabilizers for deep mixing. Materials 12:2542
Chukanov NV, Chervonnyi AD (2016) Infrared spectroscopy of minerals and related compounds. Springer, Berlin
Cihangir F, Ercikdi B, Kesimal A, Ocak S, Akyol Y (2018) Effect of sodium-silicate activated slag at different silicate modulus on the strength and microstructural properties of full and coarse sulphidic tailings paste backfill. Constr Build Mater 185:555–566
Demoling F, Figueroa D, Bååth E (2007) Comparison of factors limiting bacterial growth in different soils. Soil Biol Biochem 39:2485–2495
Derkowski A, Kuligiewicz A (2017) Rehydroxylation in smectites and other clay minerals observed in-situ with a modified thermogravimetric system. Appl Clay Sci 136:219–229
Dupuis R, Dolado JS, Surga J, Ayuela A (2018) Doping as a way to protect silicate chains in calcium silicate hydrates. ACS Sustain Chem Eng 6:15015–15021
Dutta D, Chatterjee S, Pillai KT, Pujari PK, Ganguly BN (2005) Pore structure of silica gel: a comparative study through BET and PALS. Chem Phys 312:319–324
El-Didamony H, El-Fadaly E, Amer AA, Abazeed IH (2020) Synthesis and characterization of low cost nanosilica from sodium silicate solution and their applications in ceramic engobes. Boletín de la Sociedad Española de Cerámica y Vidrio 59:31–43
Falah M, Obenaus-Emler R, Kinnunen P, Illikainen M (2019) Effects of activator properties and curing conditions on alkali-activation of low-alumina mine tailings. Waste Biomass Valoriz 11:5027–5039
Falah M, Ohenoja K, Obenaus-Emler R, Kinnunen P, Illikainen M (2020) Improvement of mechanical strength of alkali-activated materials using micro low-alumina mine tailings. Constr Build Mater 248:118659
Feizi Z, Ayoubi S, Mosaddeghi MR, Besalatpour AA, Zeraatpisheh M, Rodrigo-Comino J (2019) A wind tunnel experiment to investigate the effect of polyvinyl acetate, biochar, and bentonite on wind erosion control. Arch Agron Soil Sci 65:1049–1062
Fernández-Jiménez A, Puertas F (1997) Alkali-activated slag cements: kinetic studies. Cem Concr Res 27:359–368
Fooladi M, Ghadimi F, Zakariaee SS, Bonab HR (2019) Identification of dust generation potential in Mighan watershed. Int J Environ Sci Technol 17:2095–2104
Gartner E, Maruyama I, Chen J (2017) A new model for the CSH phase formed during the hydration of Portland cements. Cem Concr Res 97:95–106
Gorrepati EA, Wongthahan P, Raha S, Fogler HS (2010) Silica precipitation in acidic solutions: mechanism pH effect and salt effect. Langmuir 26:10467–10474
Grobelak A, Placek A, Grosser A, Singh BR, Almås ÅR, Napora A, Kacprzak M (2017) Effects of single sewage sludge application on soil phytoremediation. J Clean Prod 155:189–197
Gurav JL, Rao AV, Rao AP, Nadargi D, Bhagat S (2009) Physical properties of sodium silicate based silica aerogels prepared by single step sol–gel process dried at ambient pressure. J Alloys Compd 476:397–402
Hataf N, Ghadir P, Ranjbar N (2018) Investigation of soil stabilization using chitosan biopolymer. J Clean Prod 170:1493–1500
Head KH, Epps R (2011) Manual of Soil Laboratory Testing Permeability Shear Strength and Compressibility Tests, vol 2. Whittles Publishing, Dunbeath
Hobley E, Garcia-Franco N, Hübner R, Wiesmeier M (2018) Reviewing our options: managing water-limited soils for conservation and restoration. Land degrad Develop 29:1041–1053
Jiang H, Fall M, Yilmaz E, Yang L, Ren L (2020) Effect of mineral admixtures on flow properties of fresh cemented paste backfill: Assessment of time dependency and thixotropy. Powder Technol 372:258–266
Jordan D, Sampson AJ (1967) Effect of bitumen mulching on soil conditions. J Sci Food Agric 18:486–491
Jovanovski G, Stefov V, ŠoptrajanovBoev BB (2002) Minerals from macedonia. IV discrim betw some carbonate minerals by FTIR spectroscopy. Neues Jahrbuch für Mineralogie-Abhandlungen: J Mineral Geochem 177:241–253
Kavazanjian Jr E, Iglesias E, Karatas I Biopolymer soil stabilization for wind erosion control. In: Proc. 17th Int. Conf. Soil Mech. Geotech. Engng, Alexandria, 2009. pp 881–884
Kheirabadi H, Mahmoodabadi M, Jalali V, Naghavi H (2018) Sediment flux, wind erosion and net erosion influenced by soil bed length, wind velocity and aggregate size distribution. Geoderma 323:22–30
Kishchynskyi S, Nagaychuk V, Bezuglyi A (2016) Improving quality and durability of bitumen and asphalt concrete by modification using recycled polyethylene based polymer composition. Procedia Engineering 143:119–127
Kok JF, Parteli EJR, Michaels TI, Karam DB (2012) The physics of wind-blown sand and dust. Rep Progress Phys 75:106901
Koohestani B, Darban A, Mokhtari P, Yilmaz E, Darezereshki E (2018a) Comparison of different natural fiber treatments: a literature review. International Int J Environ Sci Technol 16(1):629–642
Koohestani B, Darban AK, Darezereshki E, Mokhtari P, Yilmaz E, Yilmaz E (2018b) The influence of sodium and sulfate ions on total solidification and encapsulation potential of iron-rich acid mine drainage in silica gel. J Environ Chem Eng 6:3520–3527
Koohestani B, Darban AK, Mokhtari P, Darezereshki E, Yilmaz E, Yilmaz E (2020) Influence of hydrofluoric acid leaching and roasting on mineralogical phase transformation of pyrite in sulfidic mine tailings. Minerals 10:513
Kuo YP, Jiang HQ, Ren L, Yilmaz E, Li YH (2020) Rheological properties of cemented paste backfill with alkali-activated slag. Minerals 10(3):288
Kudryavtsev P, Figovsky O (2016) Nanocomposite organomineral hybrid materials. Part I Nanotechnol Constr 7:16
Lal R, Shukla MK (2004) Principles of Soil Physics. CRC Press, Boca Raton
Lazaro A, Vilanova N, Barreto Torres LD, Resoort G, Voets IK, Brouwers HJH (2017) Synthesis, polymerization, and assembly of nanosilica particles below the isoelectric point. Langmuir 33:14618–14626
Lu N, Likos WJ (2006) Suction stress characteristic curve for unsaturated soil. J Geotech Geoenviron Eng 132:131–142
Maleki M, Ebrahimi S, Asadzadeh F, Tabrizi ME (2016) Performance of microbial-induced carbonate precipitation on wind erosion control of sandy soil. Int J Environ Sci Technol 13:937–944
Marchand B, Lanier S, Davy C, Albert-Mercier C, Tricot G (2018) Are calcium silicate hydrates (CSH) present in alkali-activated glass cullet cement? Mater Lett 219:104–108
Meng Z, Dang X, Gao Y, Ren X, Ding Y, Wang M (2018) Interactive effects of wind speed, vegetation coverage and soil moisture in controlling wind erosion in a temperate desert steppe. Inner Mongolia China J Arid Land 10:534–547
Meyer F, Bang S, Min S, Stetler L, Bang S (2011) Microbiologically-induced soil stabilization: application of Sporosarcina pasteurii for fugitive dust control. In: Geo-frontiers 2011: advances in geotechnical engineering. pp 4002–4011
Mirhasani M, Rostami N, Bazgir M, Tavakoli M (2019) Threshold friction velocity and soil loss across different land uses in arid regions: Iran. Arab J Geosci 12:91
Mirzaii A, Yasrobi SS, Khalili N (2012) Experimental investigation of hydraulic conductivity in unsaturated compressible soils. In: Mancuso C (ed) Unsaturated Soils: Research and Applications. Springer, Berlin, pp 205–212
Mohammadi M, As’habi MA, Salehi P, Yousefi M, Nazari M, Brask J (2018) Immobilization of laccase on epoxy-functionalized silica and its application in biodegradation of phenolic compounds. Int J Biol Macromol 109:443–447
Morgan RPC (2009) Soil Erosion and Conservation. Wiley, New York
Mujah D, Shahin MA, Cheng L (2017) State-of-the-art review of biocementation by microbially induced calcite precipitation (MICP) for soil stabilization. Geomicrobiol J 34:524–537
Musić S, Filipović-Vinceković N, Sekovanić L (2011) Precipitation of amorphous SiO2 particles and their properties Brazilian. J Chem Eng 28:89–94
Nasr-El-Din HA, Taylor KC (2005) Evaluation of sodium silicate/urea gels used for water shut-off treatments. J Petrol Sci Eng 48:141–160
Négyesi G, Lóki J, Buró B, Szabó S (2016) Effect of soil parameters on the threshold wind velocity and maximum eroded mass in a dry environment. Arab J Geosci 9:588
Otterstedt J-E, Brandreth DA (2013) Small particles technology. Springer, Berlin
Pi H, Huggins DR, Sharratt B (2019) Dry aggregate stability of soils influenced by crop rotation, soil amendment, and tillage in the Columbia Plateau. Aeolian Res 40:65–73
Puertas F, Palacios M, Manzano H, Dolado J, Rico A, Rodríguez J (2011) A model for the CASH gel formed in alkali-activated slag cements. J Eur Ceram Soc 31:2043–2056
Puppala AJ (2016) Advances in ground modification with chemical additives: From theory to practice. Transp Geotech 9:123–138
Rahman NA, Widhiana I, Juliastuti SR, Setyawan H (2015) Synthesis of mesoporous silica with controlled pore structure from bagasse ash as a silica source. Colloids Surf A 476:1–7
Rakkar MK, Blanco-Canqui H (2018) Grazing of crop residues: Impacts on soils and crop production agriculture. Ecosyst Environ 258:71–90
Ruff CG, Davidson DT (1961) Lime and sodium silicate stabilization of montmorillonite clay soil. Highw Res Board Bull 304:76–92
Shahabinejad N, Mahmoodabadi M, Jalalian A, Chavoshi E (2019) situ field measurement of wind erosion and threshold velocity in relation to soil properties in arid and semiarid environments. Environ Earth Sci 78:501
Shao Y (2008) Physics and Modelling of Wind Erosion, vol 37. Springer, Berlin
Shing LW (1999) Infrared Characterization for Microelectronics. World scientific, Singapore
Song S, Jennings HM (1999) Pore solution chemistry of alkali-activated ground granulated blast-furnace slag. Cem Concr Res 29:159–170
Ta'negonbadi B, Noorzad R (2017) Stabilization of clayey soil using lignosulfonate. Transp Geotech 12:45–55
Taskin OS, Aksu A, Cetintasoglu ME, Korkmaz NE, Torlak C, Balkis N (2018) Preparation of analytical columns and HPLC silica based C18 packing material synthesis from non-toxic silica-source. J Liquid Chromatogr Relat Technol 41:583–587
Tatarko J, Wagner L, Fox F (2019) The wind erosion prediction system and its use in conservation planning. Bridg Among Discip Synthesiz Soil Plant Proces 8:71–101
Uzarowicz Ł, Skiba M, Leue M, Zagórski Z, Gąsiński A, Trzciński J (2018) Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part II. Min Trans Soil Evolut CATENA 162:255–269
Vayghan AG, Rajabipour F, Rosenberger JL (2016) Composition–rheology relationships in alkali–silica reaction gels and the impact on the gel's deleterious behavior. Cement Concr Res 83:45–56
Wang K, Han D, Zhao P, Hu X, Yin Z, Wu D (2015) Role of MgxCa1-xCO3 on the physical–chemical properties and cyclic CO2 capture performance of dolomite by two-step calcination. Thermochim Acta 614:199–206
Wang Z, Zhang N, Cai G, Jin Y, Ding N, Shen D (2017) Review of ground improvement using microbial induced carbonate precipitation (MICP) Marine. Georesources & Geotechnol 35:1135–1146
Wu S, Pang L, Mo L, Qiu J, Zhu G, Xiao Y (2008) UV and thermal aging of pure bitumen-comparison between laboratory simulation and natural exposure aging. Road Mater Pavement Des 9:103–113
Xu J, Xiao Y, Xie G, Wang Y, Zhen L, Zhang C, Jiang Y (2020) Interregional ecosystem services benefits transfer from wind erosion control measures in Inner Mongolia. Environ Develop 34:100496
Yang L, Xu W, Yilmaz E, Wang Q, Qiu J (2020) A combined experimental and numerical study on the triaxial and dynamic compression behavior of cemented tailings backfill. Eng Struct 219:110957
Ye H, Chen Z, Huang L (2019) Mechanism of sulfate attack on alkali-activated slag: the role of activator composition. Cem Concr Res 125:105868
Yonkofski CM, Appriou D, Song X, Downs JL, Johnson CD, Milbrath VC (2018) Water Application for Dust Control in the Central Plateau: Impacts, Alternatives, and Work Strategies. Pacific Northwest National Lab, Richland WA
Zang Y-X, Gong W, Xie H, Liu B-L, Chen H-L (2015) Chemical sand stabilization: a review of material mechanism and problems. Environ Technol Rev 4:119–132
Zbik M, Smart RSC (2002) Dispersion of kaolinite and talc in aqueous solution: nano-morphology and nano-bubble entrapment. Min Eng 15:277–286
Zhang J, Klasky M, Letellier BC (2009) The aluminum chemistry and corrosion in alkaline solutions. J Nucl Mater 384:175–189
Zhang Z, Huisingh D (2018) Combating desertification in China: Monitoring, control, management and revegetation. J Clean Prod 182:765–775
Živica V (2007) Effects of type and dosage of alkaline activator and temperature on the properties of alkali-activated slag mixtures. Constr Build Mater 21:1463–1469
Zomorodian SMA, Ghaffari H, O'Kelly BC (2019) Stabilisation of crustal sand layer using biocementation technique for wind erosion control. Aeol Res 40:34–41
Zuo Y, Nedeljković M, Ye G (2019) Pore solution composition of alkali-activated slag/fly ash pastes. Cem Concr Res 115:230–250
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This study was accomplished via a research Grant (No: 96016805, 2018) awarded by Iran National Science foundation (INSF).
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Koohestani, B., Darban, A.K., Mokhtari, P. et al. Geopolymerization of soil by sodium silicate as an approach to control wind erosion. Int. J. Environ. Sci. Technol. 18, 1837–1848 (2021). https://doi.org/10.1007/s13762-020-02943-2
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DOI: https://doi.org/10.1007/s13762-020-02943-2