Improvement of Barrier Soil Properties with Fly Ash to Minimize Desiccation Shrinkage

[1] K. J. Osinubi and C. M. O. Nwaiwu, Hydraulic conductivity of Compacted Lateritic soil. J. Geotech & Geoenviron. Eng., ASCE 131 (8) (2005)1034 – 1041.

DOI: 10.1061/(asce)1090-0241(2005)131:8(1034)

Google Scholar

[2] K. J. Osinubi and C. M. O. Nwaiwu, Design of Compacted Lateritic soils liners and cover. J. Geotech & Geoenviron. Eng., ASCE 132 (2) (2006) 203 – 213.

DOI: 10.1061/(asce)1090-0241(2006)132:2(203)

Google Scholar

[3] K. J. Osinubi and C. M. O. Nwaiwu, Desiccation induced shrinkage in compacted lateritic soil. Journal of Geotechnical and Geological Engineering, Springer, Netherlands, (2008), ISSN 0960 – 3182 (Print), 1513 – 1529 (Online).

DOI: 10.1007/s10706-008-9193-4

Google Scholar

[4] B. A. Albrecht, and C. H. Benson, Effect of desiccation on compacted natural clays. J. Geotech. and Geoenviron. Engrg., ASCE 126 (8) (2001)739-745.

Google Scholar

[5] W. B. Haines, The Volume changes associated with variations of water content in soils. J. Agric. Sci. 13 (1923) 296 – 310.

Google Scholar

[6] J. K. Mitchell, Fundamental of Soil Behaviour, John Wiley and Sons, Inc., New York, (1976).

Google Scholar

[7] R. D. Holtz and W. D. Kovacs, An Introduction to Geotechnical Engineering. Prentice-Hall, Inc., New Jersey, (1981).

Google Scholar

[8] C. H. Benson and M. Khire, Earthen Materials in surface Barrier. Barrier Technologies for Environmental Management, National Academy Press. National Research Council, Washington D.C., (1995), D78 – D89.

Google Scholar

[9] J. Klepp and R. Olson, Desiccation cracking of soil barriers' In: Hydraulic barriers in soil and rock, ASTM STP 874, A. J. Johnson, R. K. Frobel, N. J. Cavallis and C. P. Patterson, eds. ASTM West Philadelphia, Pa., (1985), 263 – 275.

DOI: 10.1520/stp34583s

Google Scholar

[10] E. Dejong and B. P. Warkentin, Shrinkage of soil samples with varying clay content, Can. Geotech. J. 2 (1) (1965) 16 – 22.

Google Scholar

[11] K. J. Osinubi, A. O. Eberemu and A. A. Amadi, Compacted Lateritic Soil Treated with Blast Furnaces Slag as Hydraulic Barriers in Waste Containment. Int. J. Risk Assessment and Management. Vol. 13, No. 2. (2009).

DOI: 10.1504/ijram.2009.030328

Google Scholar

[12] K. J. Osinubi and A. O. Eberemu, Desiccation-induced shrinkage of compacted lateritic soil treated with Bagasse ash, The Twenty – Fourth International Conference on Solid Waste Technology and Management CD-ROM, 15 – 18 March, Philadelphia, PA, U.S.A. Session 5C: Bioreactors and Innovative Landfills, (2009).

DOI: 10.5276/jswtm.2011.210

Google Scholar

[13] K. D. Vesperman, T. B. Edil and P. M. Berthouex, Permeability of fly ash and fly ash/sand mixtures: Impermeable barriers for soil and rock: Special Technical Publication No. 874, ASTM, Phladelphia, Pa., (1985), 170 – 180.

DOI: 10.1520/stp34586s

Google Scholar

[14] J. J. Bowders, M. A. Usmen, J. S. Gidley, Stabilized fly ash for use as low – permeability barrier, Geotechnical Practice for Waste Disposal, R.D. Woods, Ed., Geotechnical Special Publication, ASCE, New York 13 (1987) 320-333.

Google Scholar

[15] T. B. Edil, P. M. Berthouex and K. D. Vesperman, Fly ash as a potential waste liner, Proc. Conf. on Geotech practice for waste disposal, Geotech. Special Publication, ASCE, New York, 13 (1987) 447-461.

Google Scholar

[16] A. A. Amadi, Evaluation of Changes in Index Properties of Lateritic Soil Stabilized with Fly Ash, Leonardo Electronic Journal of Practices and Technologies (LEJPT), 17 (9) (2010) 69 - 78.

Google Scholar

[17] A. A. Amadi, Hydraulic Conductivity Tests for Evaluating the Compatibility of Lateritic Soil - Fly Ash Mixtures with Municipal Waste Leachate Journal of Geotechnical and Geological Engineering, Springer, Netherlands, ISSN 0960 – 3182 (Print), (2010).

DOI: 10.1007/s10706-010-9358-9

Google Scholar

[18] C. D. Shackelford and J. D. Nelson, Geoenvironmental Design Considerations Tailings Dams, Proc. Int. Symp. on Seismic and Environmental Aspects of Dam Design: Earth, Concrete and Tailing Dams 1 Santiago, Chile, Oct. 14 – 18, (1996), 131 – 187.

Google Scholar

[19] K. J. Osinubi and A. A. Amadi, Regression Equations for Predicting Hydraulic Conductivity in compacted Laterite – Fly Ash mixtures, Nigerian Journal of Engineering 13 (1) (2006) 61 – 70.

Google Scholar

[20] D. E. Daniel and Y. K. Wu, Compacted clay liners and covers for arid sites, J. Geotech. Engrg. 119 (2) (1993) 223 – 237.

DOI: 10.1061/(asce)0733-9410(1993)119:2(223)

Google Scholar

[21] Y. Tay, D. Stewart and T. Cousens, Shrinkage and Desiccation Cracking in Bentonite- Sand landfill liners, Engineering Geology, Elservier Science 60 (2001) 263 – 274.

DOI: 10.1016/s0013-7952(00)00107-1

Google Scholar

[22] D. E. Daniel and C. H. Benson, Water content- density criteria for compacted soil liners J. Geotech Engrg., ASCE 116 (12) (1990) 1811 – 1830.

DOI: 10.1061/(asce)0733-9410(1990)116:12(1811)

Google Scholar

[23] I. Oweis and R. Khera, Geotechnology of Waste Management, PWS Publishing, Boston, USA, (1998).

Google Scholar

[24] K. J. Osinubi, A. A. Amadi and A. O. Eberemu, Shrinkage characteristics of compacted laterite soil – fly ash mixture, Nigerian Society of Engineers Technical Transaction 41 (1) (2006) 36 – 48.

Google Scholar

[25] BS 1377, Methods of Tests for Soils for Civil Engineering Purposes, British Standards Institution London, (1990).

Google Scholar

[26] K. H. Head, Manual of Soil Laboratory Testing. Soil classification and compaction tests, Vol. 1, 2nd Ed., Pentech Press, London, (1994).

Google Scholar

[27] Nigerian General Specification, Roads and Bridges. Federal Ministry of Works and Housing, Lagos, (1970).

Google Scholar

[28] BRRI/Lyon Associates, Laterites and lateritic soils and other problem soils of Africa. An engineering study for USAID, AID/csd- 2164, Baltimore, Md, (1971).

Google Scholar

[29] J. H. Charman, Laterite in Road Pavements, Construction Industry Research and Information Association (CIRCA), Special Publication 47, Westminster, London, (1988).

Google Scholar

[30] C. H. Benson and D. E. Daniel, Influence of clods on hydraulic conductivity of compacted Clays, J. Geotech. Engrg., ASCE 116 (8) (1990) 1231-1248.

DOI: 10.1061/(asce)0733-9410(1990)116:8(1231)

Google Scholar

[31] R. K. Rowe, M. R. Quigley and R. J. Booker, Clayey Barrier Systems for Waste Disposal facilities E & FN Spon. An imprint of Chapman & Hall. 2 – 6. Boundary Row London, (1995).

DOI: 10.1201/9781482271928

Google Scholar

[32] K. J. Osinubi and A. A. Amadi, Desiccation induced shrinkage in compacted lateritic Soil – bentonite mixtures proposed as landfill barriers, Proc. of Bimonthly Meeting/Workshop Materials Society of Nigeria (MSN), Zaria Chapter, Jan. – Dec. (2007).

DOI: 10.1061/9780784480144.048

Google Scholar

[33] C. H. Benson, D. E. Daniel and G. P. Boutwell, Field performance of compacted clay Liners, J. Geotech and Goenv. Engrg., ASCE 127 (1) (1999) 67 – 75.

Google Scholar

[34] M. Khire, C. H. Benson and P. Bosscher, Water balance modelling of earthen final covers at humid and semi-arid sites, J. Geotech. Engrg., ASCE 123 (8) (1997) 744- 754.

DOI: 10.1061/(asce)1090-0241(1997)123:8(744)

Google Scholar