USE OF SUGARCANE BAGASSE ASH AS A PARTIAL REPLACEMENT OF CEMENT IN CONCRETE

Authors:

Azmatullah,Adil Afridi,Atif Afridi,Inayatullah Khan,

DOI NO:

https://doi.org/10.26782/jmcms.2019.04.00006

Keywords:

Artificial Pozzolan,SCBA,Compressive tests,

Abstract

Pakistan annually produces approximately 50 Million tons of sugar cane and most of it is used for production of sugar. The industrial waste of sugar cane, known as bagasse, is mostly used as fuel for power generation in the same sugar industry. We have to study the properties of sugar cane bagasse ash in concrete, the main variables in this study are the amount of sugar cane bagasse ash (0, 5, 10, 15, 20 and 25 percent by weight of cement) as a partial replacement of cement in concrete. We conclude that to improve the quality and reduce the cost of construction material. The importance of this work is to make sugar cane bagasse ash (SCBA) as a construction material.

Refference:

I.Aznar, M.P., Gracia-Gorria International Journal of Advanced Structures and Geotechnical Engineering.ISSN 2319-5347, Vol. 03, No. 01, January 2014 “A study on the Mechanical Properties of Concrete with partial replacement of Fine aggregate with Sugarcane bagasse ash”

II.Altmann, E., Kellett, P., 1999. Thermal Municipal Solid Waste Gasification. Renewable Energy Information Office, Irish Energy Centre.

III.Aznar, M.P., Gracia-Gorria,F.A., Corella, J., 1998. La velocidad minima defluizacion y de completafluidizacion de mezclas de residuosagrarios y forestales con secundosolidofluidizante. Anales de Quimica 84 (3), 385–394

IV.Barducci G., 1992. The RDF gasifier of Florentine area (Gre`ve in Chianti Italy). The first Italian-Brazilian symposiumon Sanitary and Environmental Engineering.

V.Barducci P., Neri G., 1997. An IGCC plant in Italy for power generation from biomass. Bioelettrica Internal Report.

VI.Barducci, P., Neri, G., Trebbi, G., 1997.The Energy Farm Project. World Gas Conference, Copenhagen.

VII.Baykara, S.Z., Bilgen, E., 1981. A Feasibility Study on Solar Gasification of Albertan Coal. Alternative Energy Sources IV, vol. Ann Arbor Science, New York.

VIII.Becker, B., Schetter, B., 1992. Gas turbine above 150 MW for integrated coal gasification combined cycles (IGCC). Journal of Engineering for Gas Turbines and Power 114, 660–664. Bingyan, X., Zengfan, L., Chungzhi, W., Haitao, H., Xiguang, Z., 1994. Circulating Fluidized Bed Gasifier for Biomass. Integrated Energy Systems in China. The cold Northeastern Region Experience FAO. FAO.

IX.De Lange, H.J., Barducci, P., 2000. The realization of a biomass-fuelled IGCC plant in Italy. In: European Congress on Biomass TEF.

X.Delgado, J., Aznar, M.P., Corella,J., 1996. Calcined dolomite, magnesite, and calcite for cleaning hot gas from a fluidized bed biomass gasifier with steam: life and usefulness. Industrial & Engineering Chemistry Research 35 (10), 3637–3643.

XI.Jayminkumar A. Patel*, Dr. D. B. Raijiwala (April 2015)S. V. National Institute of Technology, Surat, Gujarat, INDIA-395007)Experimental study on compressive strength of concrete by partially replacement of cement with sugar cane bagasse ash

Azmatullah, Adil Afridi, Atif Afridi, Inayatullah Khan View Download