Rice husk ash and its utilization in soil improvement: An overview
Affiliations:
Faculty of Geosciences and Geoengineering, Hanoi University of Mining and Geology, Vietnam
- *Corresponding:This email address is being protected from spambots. You need JavaScript enabled to view it.
- Keywords: Agricultural by-product, Burning time, Chemical binders, Rice husk ash (RHA), Soil improvement, Temperature.
- Received: 21st-Feb-2020
- Revised: 23rd-May-2020
- Accepted: 30th-June-2020
- Online: 28th-June-2020
- Section: Geology - Mineral
Abstract:
The utilization of waste materials in soil improvement is the potential for the reduction of the negative effect on the environment and the construction cost as well. One of the waste materials is rice husk ash (RHA), which is an agricultural-by product and can be utilized for soil improvement. This paper aims to present a comprehensive review of the numerous investigations on rice husk ash and its utilization in soil improvement. Based on the literature review, there are some findings as follows: (i) burning rice husk ash in incinerator under a controlled temperature of 500÷8000C and time of 1÷4 hours will produce RHA with high pozzolanic activity; (ii) the RHA can be considered as a stabilizer for different types of soil, and it can be used in combination with different chemical binders and waste materials for soil improvement; (iii) from the view of engineering purposes, the RHA from about 3 to 20%, the lime from 2 to 9%, the cement from 2 to 15% were mostly suggested to improve the soil for pavement, road (base and sub-base layers), and building houses in rural areas. However, the research on the utilization of RHA in soft ground improvement by deep mixing method using lime and cement is still limited, and it is therefore recommended for further research. In addition, the experimental field research on the utilization of RHA for soil improvement in engineering practice needs to be conducted.
Abarajithan, G., Rishab Kumar, P., Srikanth, R. (2017). Feasibility of soil stabilization using rice husk ash and coir fibre. Int. J. of Eng. Research and Technology 6(4). 552-556.
Adajar, M. N. Q., Aquino, C. J. P., Dela Cruz II, J. D., Martin, C. P. H. and Urieta, D. K. G. (2019). Investigating the effectiveness of rice husk ash as stabilizing agent of expansive soil. International Journal of GEOMATE 16. 33-40.
Akinyele, J.O., Salim, R.W., Oikelome, K.O. and Olateju, O.T. (2015) The use of rice husk ash as a stabilizing agent in lateritic clay soil. Int. J. of Civil, Environmental, Structural, Const. and Architectural Engineering 9. 1373-1377.
Alhassan, M. (2008a). Potentials of rice husk ash for soil stabilization. Assumption University Journal of Technology 11(4). 246-250.
Alhassan, M. (2008b). Permeability of lateritic soil treated with lime and rice husk ash. Assumption University Journal of Technology (AU J.T) 12(2). 115-120.
Alhassan, M., Mustapha, A.M. (2007). Effect of rice husk ash on cement stabilized laterite. Leonardo Electronic Journal of Practices and Technologies 11. 47-58.
Ali, F. H, Adana, A., Choy, C. K. (1992b). Use of rice husk ash to enhance lime treatment of soil. Can. Geotech. J. 29. 843-852
Ali, F.H. (1992). Stabilization of a residual soil. Soils and Foundations 32. 178-185.
Ali, F.H., Adnan, A., Choy, C.K. (1992a). Geotechnical properties of a chemically stabilized soil from Malaysia with rice husk ash as an additive. Geotechnical and Geological Engineering 10. 117-134.
Al-Khalaf, M.N., Yousif, H.A. (1984). Use of rice husk ash in concrete. Int. J. Cement Composites and Lightweight Concrete 6.
Antiohos, S.K., Papadakis, V.G., Tsimas, S. (2014). Rice husk ash (RHA) effectiveness in cement and concrete as a function of reactive silica and fineness. Cement and Concrete Research 61. 20-27.
Anwar Hossain, K.M. (2011). Stabilized soils incorporating combinations of rice husk ash and cement kiln dust. Journal of Materials in Civil Engineering 23. 1320-1327.
Ashango, A.A., Patra, N.R. (2016). Behavior of expansive soil treated with steel slag, rice husk ash, and lime. Journal of Materials in Civil Engineering 28.
ASTM D 854-92. Section IV - Specific gravity of solids determination.
ASTM, C110-15. Test Methods for Physical Testing of Quicklime, Hydrated Lime, and Limestone.
ASTM, C618, 2008. Standard specification for coal fly ash and raw or calcined natural pozzolan for use in concrete. American Society of Testing and Materials. West Conshohocken Pennsylvania, USA.
Ayite, Y. M. X. D., P’Kla, A., Pachoukova, I. (2020). Improvement of Zogbedji (Togo) clay soil characteristics by adding rice husks ashes (RHA). Journal of Scientific and Engineering Research 7(1). 21-26
Aziz, M., Saleem, M., Irfan, M. (2015). Engineering behavior of expansive soils treated with rice husk ash. Geomechanics and Engineering 8, 173-186.
Bagheri, Y., Ahmad, F., Ismail, M.A.M. (2014). Strength and mechanical behavior of soil-cement-lime-rice husk ash (soil-CLR) mixture. Materials and Structures 47. 55-66.
Basha, E.A., Hashim, R., Mahmud, H.B., Muntohar, A.S. (2005). Stabilization of residual soil with rice husk ash and cement. Const.n and Build. Materials 19. 448-453.
Behak, L., 2017. Soil Stabilization with Rice Husk Ash. Chapter 3 in Rice-Technology and Production.
Boateng, A.A., Skeete, D.A. (1990). Incineration of rice hull for use as a cementitious material: The Guyana experience. Cement and Concrete Research 20, 795-802.
Brooks, R.M. (2009). Soil stabilization with fly ash and rice husk ash. Int. Journal of Research and Reviews in Applied Sciences 1. 209-217.
Bui, D.D., Hu, J., Stroeven, P. (2005). Particle size effect on the strength of rice husk ash blended gap-graded Portland cement concrete. Cement and Concrete Composites 27. 357-366.
Choobbasti, A.J., Ghodrat, H., Vahdatirad, M.J., Firouzian, S., Barari, A., Torabi, M., Bagherian, A. (2010). Influence of using rice husk ash in soil stabilization method with lime. Front. Earth Sci. China 4. 471-480.
Cordeiro, G.C., Toledo Filho, R.D., Fairbairn, E. de M.R. (2009). Use of ultrafine rice husk ash with high-carbon content as pozzolan in high performance concrete. Materials and structures 42. 983-992.
Fapohunda, C., Akinbile, B., Shittu, A. (2017). Structure and properties of mortar and concrete with rice husk ash as partial replacement of ordinary Portland cement-A review. International Journal of Sustainable Built Environment 6. 675-692.
Fattah, M.Y., Rahil, F.H., Al-Soudany, K.Y. (2013). Improvement of clayey soil characteristics using rice husk ash. Journal of Civil Engineering and Urbanism 3. 12-18.
Ganesan, K., Rajagopal, K., Thangavel, K. (2008). Rice husk ash blended cement: assessment of optimal level of replacement for strength and permeability properties of concrete. Const. and Build. Materials 22. 1675-1683.
Givi, A.N., Rashid, S.A., Aziz, F.N.A., Salleh, M.A.M. (2010). Assessment of the effects of rice husk ash particle size on strength, water permeability and workability of binary blended concrete. Construction and Building Materials 24. 2145-2150.
Gupta, D., Kumar, A. (2017). Stabilized soil incorporating combinations of rice husk ash, pond ash and cement. Geomechanics and Engineering 12. 85-109.
Hamad, M.A., Khattab, I.A. (1981). Effect of the combustion process on the structure of rice hull silica. Thermochimica Acta 48. 343-349.
Houston, D. F. (1972). Rice hulls. In: Rice-Chemistry and Technology. American Association of Cereal Chemists, St. Paul, MN. 301-340.
Jongpradist, P., Homtragoon, W., Sukkarak, R., Kongkitkul, W., Jamsawang, P. (2018). Efficiency of rice husk ash as cementitious material in high-strength cement-admixed clay. Advances in Civil Engineering.
Kannan, V., Ganesan, K. (2014). Chloride and chemical resistance of self-compacting concrete containing rice husk ash and metakaolin. Construction and Building Materials 51. 225-234.
Karatai, T.R., Kaluli, J.W., Kabubo, C., Thiong’o, G. (2016) Soil stabilization using rice husk ash and natural lime as an alternative to cutting and filling in road construction. Journal of Construction Engineering and Management 143.
Khan, M. M. H., Loh, E., Singini, P. T., (2016). Stabilization of tropical residual soil using rice husk ash and cement. International Journal of Applied Environmental Science 11(1). 73-87.
Khassaf, S.I., Jasim, A.T., Mahdi, F.K. (2014). Investigation the properties of concrete containing rice husk ash to reduction the seepage in canals. International Journal of Scientific and Technology Research 3. 348-354.
Little, D.N. (1999). Evaluation of Structural Properties of Lime Stabilized Soils and Aggregates .Volume 1, 1-77
Liu, Y., Chang, C.-W., Namdar, A., She, Y., Lin, C.-H., Yuan, X., Yang, Q. (2019a). Stabilization of expansive soil using cementing material from rice husk ash and calcium carbide residue. Const. and Build. Materials 221. 1-11.
Liu, Y., Su, Y., Namdar, A., Zhou, G., She, Y., Yang, Q. (2019b). Utilization of cementitious material from residual rice husk ash and lime in stabilization of expansive soil. Advances in Civil Engineering.
Madandoust, R., Ranjbar, M.M., Moghadam, H.A., Mousavi, S.Y. (2011). Mechanical properties and durability assessment of rice husk ash concrete. Biosystems Engineering 110. 144-152.
Nair, D.G., Fraaij, A., Klaassen, A.A., Kentgens, A.P. (2008). A structural investigation relating to the pozzolanic activity of rice husk ashes. Cement and Concrete Research 38, 861-869.
National Lime Association, USA. Properties of typical commercial lime products.
Nguyen Thi Nu, Bui Truong Son, (2020). Utilisation of ground granulated blast furnace slag (GGBFS) for soft soil improvement by deep mixing method (Vietnamese). Journal of Mining and Earth Sciences 61 (1). 92-100
Nguyen, V. T., Ye, G., Van Breugel, K., Fraaij, A.L., Dai Bui, D. (2011). The study of using rice husk ash to produce ultra-high performance concrete. Cons. and Build. Materials 25. 2030-2035.
Okafor, F.O., Okonkwo, U.N. (2009). Effects of rice husk ash on some geotechnical properties of lateritic soil. Nigerian J. of Technology 28, 46-52.
Phai, H., Eisazadeh, A. (2019). Compaction properties of rice husk ash-lime-Bangkok clay mixtures. Advanced Materials Research IX-Key Engineering Materials 803. 331-337
Pham, V. P., Tran, V. T. (2020). Rice husk ash burnt in simple conditions for soil stabilization. Lecture Notes in Civil Engineering. 717-722.
Rahman, M.A. (1987). Effects of cement-rice husk ash mixtures on geotechnical properties of lateritic soils. Soils and Foundations 27. 61-65.
Rahman, Z.A., Ashari, H.H., Sahibin, A.R., Tukimat, L., Razi, I.W.M. (2014). Effect of rice husk ash addition on geotechnical characteristics of treated residual soil. American-Eurasian Journal of Agricultural and Environmental Sciences 14. 1368-1377.
Rao, D.K., Rao, G., Pranav, P.R.T. (2012). A laboratory study on the effect of rice husk ash and lime on the properties of marine clay. Int J Eng Innov Technol 2. 345-53.
Roy, A. (2014). Soil stabilization using rice husk ash and cement. Int. J. Civil Engineering Research 5. 49-54.
Sarkar, G., Islam, M.R., Alamgir, M., Rokonuzzaman, M. (2012). Interpretation of rice husk ash on geotechnical properties of cohesive soil. Global J. Research in Engineering 12.
Seco, A., Ramírez, F., Miqueleiz, L., García, B. (2011). Stabilization of expansive soils for use in construction. Applied Clay Science 51(3). 348-352.
Sekhar, D. C., Nayak, S., Preetham, H. K. (2017). Influence of granulated blast furnace slag and cement on the strength properties of lithomargic clay. Indian Geotech. J.
Sharma, A. K., Sivapullaiah. (2016). Ground granulated blast furnace slag amended fly ash as an expansive soil stabilizer. Soils and Foundations 56(2), 205-212.
Sharma, R.S., Phanikumar, B.R., Rao, B.V. (2008). Engineering behavior of a remolded expansive clay blended with lime, calcium chloride, and rice-husk ash. Journal of Materials in Civil Engineering 20. 509-515.
Singhai, A.K., Singh, S.S. (2014). Laboratory study on soil stabilization using fly ash and rice husk ash. Int. J. of Research in Engineering and Technology. 2319-1163.
Subrahmanyam, M.S., Cheran, L.L., Cheran, L.S. (1981). Use of rice husk ash for soil stabilization. Geol. Soc. Malaysia. Bulletin 14. 143-151.
Yadav, A.K., Gaurav, K., Kishor, R., Suman, S.K. (2017). Stabilization of alluvial soil for subgrade using rice husk ash, sugarcane bagasse ash and cow dung ash for rural roads. International Journal of Pavement Research and Technology 10. 254-261.
Yeoh, A.K., Bidin, R., Chong, C.N., Tay, C.Y. (1979). The relationship between temperature and duration of burning of rice-husk in the development of amorphous rice-husk ash silica. In: Proceedings of UNIDO/ESCAP/RCTT.
Yoobanpot, N., Jamsawang, P. (2014). Effect of cement replacement by rice husk ash on soft soil stabilization. Kasetsart Journal-Natural Science 48. 323-332.
Yulianto, F.E., Mochtar, N.E. (2010). Mixing of rice husk ash (RHA) and lime for peat soil stabilization. In: Proceedings of the First Makassar International Conference on Civil Engineering.
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