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Design of the usability of ceramic sanitary ware waste in cement production using the Taguchi method

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The cement process is one of the industries where energy is consumed intensively. High levels the amount of carbon dioxide emission reaches since the nature of the raw materials used in its production. At this point, using industrial wastes and by-products containing oxides such as calcium, silica, alumina, and iron oxides blended cement reduces energy consumption and carbon dioxide emissions. In this study, the effects of using ceramic sanitary ware waste (CSW) instead of clinker on the cement grinding stage were investigated. The grinding tests were carried out with clinker in a ball mill, according to grinding parameters as ball filling ratio, ball diameter, and grinding time by using Taguchi method for optimization of cement grinding condition. The reference and blended cements with CSW were determined compressive strength.
Słowa kluczowe
Rocznik
Strony
art. no. 168256
Opis fizyczny
Bibliogr. 20 poz., tab., wykr.
Twórcy
  • Istanbul Technical University, Faculty of Mines, Mining Engineering Department, Istanbul, Turkiye
  • Istanbul Technical University, Faculty of Mines, Mineral Processing Engineering Department, Istanbul, Turkiye
Bibliografia
  • AKÇIÇEK N., 2007. Modelling and Optimization of Some Grinding Parameters for Ball Mill, Cumhuriyet University, Master thesis (In Turkish).
  • AWOYERA P.O., NDAMBUKI J.M., AKINMUSURU J.O., OMOLE D.O., 2016. Characterization of Ceramic Waste Aggregate Concrete, 14, 282-287.
  • AY N., UNAL M., 2000. The Use of Waste Ceramic Tile in Cement Production, Cement and Concrete Research, 30, 3, 497-499.
  • BP, 2020. Statistical Review of World Energy 2020, 69th edition. BP p.l.c. London, UK.
  • FILHO R.D.T., GONÇALVES J.P., AMERICANO B.B., FAIRBAIRN E.M.R., 2007. Potential for use of crushed waste calcined-clay brick as a supplementary cementitious material in Brazil. Cement and Concrete Research, 37, 9, 1357-1365, https://doi.org/10.1016/j.cemconres.2007.06.005.
  • IEA, 2021. International Energy Agency. Direct Industrial CO2 Emissions Declined Modestly in 2018, But Need to Fall Faster, Industry Direct CO2 Emissions in the Sustainable Development Scenario, 2000-2030, https://www.iea.org/topics/industry.
  • JOS, G.J., MUNTEAN, M., PETERS, J., 2014. Trends in Global CO2 Emissions 2014 Report, PBL Netherlands Environmental Assesment Agency, Publication number: 1490.
  • MAS M.A., MONZO, J., PAYA, J., REIG, L., BORRACHERO, M.V., 2016. Ceramic Tiles Waste as Replacement Material in Portland Cement. Advances in Cement Research, 28, 4, 221-232, doi.org/10.1680/jadcr.15.00021.
  • MONTGOMERY, D., C., 1991. Design and Analysis of Experiments, John Wiley & Sons Inc., USA.
  • OUYANG, X., YU, L., WANG, L., XU, S., MA, Y., FU, J., 2022. Surface properties of ceramic waste powder and its effect on the rheology, hydration and strength development of cement paste, Journal of Building Engineering, 61 (105253).
  • OZBAY E., OZTAS A., BAYKASOGLU A., OZBEBEK H., 2009. Investigating Mix Proportions of High Strength Self-Compacting Concrete by Using Taguchi Method, Construction and Building Materials, 23, 694-702.
  • PACHCO-TORGALE, F., JALALI, S., 2010. Reusing ceramic wastes in concrete, Construction and Building Materials, 24, 832-838.
  • PITARCH, A.M., REIG, L., TOMAS, A.E., FORCADA, G., SORIANO, L., BORRACHERO, M.V., PAYA, J., MONZO, J.M., 2021. Pozzolanic activity of tiles, bricks and ceramic sanitary-ware in eco-friendly Portland blended cements, Journal of Cleaner Production, 279 (123713).
  • PUERTAS F., BARBA A., GAZULLA F., GOMEZ M.P., PALACIOS M., MATINEZ-RAMIREZ S., 2006. Ceramic Wastes as Raw Materials in Portland Cement Clinker Fabrication: Characterization and Alkaline Activation, Materiales de Construccion, 56, 281, 73-84; doi.org/10.3989/mc.2006.v56.i281.94.
  • SANCHEZ DE ROJAS M.I., MARÍN F., RIVERA J., FRÍAS M., 2006. Morphology and Properties in Blended Cements with Ceramic Wastes as a Pozzolanic Material. Journal of the American Ceramic Society, 89, 12, 3701-3705, doi.org/10.1111/j.1551-2916.2006.01279.x.
  • TAGUCHI, G., 1987. System of Experimental Design Quality Resources, New York, vol.1.
  • TOBB, 2014. Turkey Cement and Cement Products Assembly Sector Report 2012. Union of Chambers and Commodity Exchanges of Turkey, Number: 2014/239, Ankara.
  • TRALAM M.N., LE D.H., NGUYEN D.L., 2023. Reuse of Clay Brick and Ceramic Waste in Concrete: A Study on Compressive Strength and Durability Using the Taguchi and Box–Behnken Design Method, Construction and Building Materials, 373 (130801).
  • TURKMEN I., GUL R., CELİK C., DEMIRBOGA R., 2003. Determination by Taguchi Method of Optimum Conditions for Mechanical Properties of High Strength Concrete with Admixtures of Silica Fume and Blast Furnace Slag. Civil Engineering and Environmental Systems, 20, 2, 105–118.
  • WANG L., LIU Z., XU S., OUYANG X., OUYANG D., JIAOC., ZHANG Y., 2019. A Study on the Effect of Ceramic Polishing Powder on the Nucleation and Growth of Hydrates in Cement Paste, Crystals, MDPI, 9, 545; doi:10.3390/cryst9100545.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9d080f5f-cc62-4ae7-b987-2f61191900f4
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