Recycling of combined coal-biomass ash from electric power plant waste as a cementitious material: characteristics and improvement |
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Authors: | Prinyamai Jidrada Gritsada Sua-iam Burachat Chatveera Natt Makul |
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Institution: | 1.Department of Civil Engineering Faculty of Engineering,Thammasat University (Rangsit Campus),Pathum Thani,Thailand;2.Department of Building Technology Faculty of Industrial Technology,Phranakhon Rajabhat University,Bangkok,Thailand |
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Abstract: | Combined coal-biomass ash has an enormous impact on environmental quality near electric power plants. This paper describes an alternative to disposal in which the ash is used to produce cementitious materials. Ash was obtained from combustion of coal and biomass containing four mass ratios of anthracite, bitumen, rice husks, and eucalyptus bark. The cement-forming properties were systematically characterized including compressive strength development, durability, and expansion in water. The ash samples were ground to increase the specific surface area, and then used to partially replace ASTM Type I Portland cement in mixtures containing 15, 30, or 45 % ash by mass. The water-binder material's (Portland cement with or without combined coal-biomass ash) ratios (w/c) were held constant at 45, 55, or 65 % by mass. Types A, B, and D ash behaved similarly, while the properties of type C ash were slightly different. Increasing the ash fraction in Portland cement mixtures increased the water requirement and resulted in lower compressive strength. Thorough mechanical grinding reduced the porosity and significantly enhanced the material properties. |
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