Browsing by Author "Sritharan, D"

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    item: Conference-Full-text
    Study on use of bottom ash in manufacturing cement blocks
    (IEEE, 2021-07) Sritharan, D; Baskaran, K; Jayakody, JRUC; Adhikariwatte, W; Rathnayake, M; Hemachandra, K
    Bottom ash is a common by-product of thermal power plants or boilers. From an ecological and engineering point of view, the use of coal bottom ash in cement mixtures is a beneficial application. This study mainly aims to check the possibility of using bottom ash as a replacement to the fine aggregate in manufacturing 300mm×100mm×150mm solid cement blocks locally. Bottom ash from the coal-fired boiler in Sri Lanka was used to replace manufactured sand at different percentages by volume of sand. Mechanical and durability properties of cement blocks were determined at the ages of 14, 28, and 56 days. Finally, developed statistical models to predict compressive strength, water absorption, and density of cement blocks. The results showed that the density and compressive strength of cement blocks decreased, and water absorption increased with an increasing replacement level of bottom ash. From the analysis, it can be concluded that up to 45 per cent of fine aggregate in the cement blocks can be replaced with sieved coal bottom ash to produce cement blocks, which satisfy the requirements of current SLS standards.
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    item: Conference-Abstract
    Study on using bottom ash in manufacturing conventional cement blocks
    (Department of Civil Engineering, University of Moratuwa, 2021-11) Sritharan, D; Baskaran, K; Jayakody, JRUC; Hettiarachchi, P
    Bottom ash is a common by-product of thermal power plants or boilers. Due to the depletion of natural sources of fine aggregates, there is a need to encourage the use of alternative materials. In this study, coal bottom ash is used as replacement for fine aggregates. From an environmental and economical point of view, the use of coal bottom ash in cement mixtures is a beneficial application. The significance of the present study is maximizing the utilization of coal bottom ash by using it in the manufacturing process of conventional 300mm x 100mm x 150mm solid cement blocks and then checking its suitability to the construction industry against Sri Lankan standards. Finally, statistical models were developed between compressive strength, water absorption, density, and other input variables. The raw materials utilized in this experimental study were ordinary Portland cement, manufactured sand, bottom ash, and water. Bottom ash from Brandix Textile (Pvt) Ltd., Wayamba Industrial Zone, Makandura, Gonawilla, Sri Lanka was used to replace manufactured sand at different percentages by volume of sand. 1:6 cement: fine aggregate mix proportion was proposed for this experiment with the 0.5 consistent water/cement ratio. In this study, conventional vibrocompaction was used to mould the cement blocks. The blocks were cured by spraying water twice a day till the day of testing. Finally, the mechanical and durability properties of cement blocks were determined at the ages of 14th, 28th, and 56th days. The results showed that the density and compressive strength of cement blocks decreased, and water absorption increased with an increasing replacement level of bottom ash. From the analysis, it can be concluded that up to 45% of fine aggregate in the cement blocks can be replaced with sieved coal bottom ash in small and medium scale conventional cement block manufacturing using the mix proportions attempted in the present study.