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The efficiency of iron oxide removal from laterite for industrial applications

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dc.contributor.author Goonetilleke, WALAT
dc.contributor.author Ratnayake, AS
dc.contributor.author Jayawardena, DT
dc.contributor.editor Dissanayake, DMDOK
dc.contributor.editor Samaradivakara, GVI
dc.date.accessioned 2022-03-23T03:15:31Z
dc.date.available 2022-03-23T03:15:31Z
dc.date.issued 2019-08
dc.identifier.citation Goonetilleke, W.A.L.A.T., Ratnayake, A.S., & Jayawardena, D.T. (2019). The efficiency of iron oxide removal from laterite for industrial applications [Abstract]. In D.M.D.O.K. Dissanayake & G.V.I. Samaradivakara (Eds.), Proceedings of International Symposium on Earth Resources Management & Environment 2019 (p. 125). Department of Earth Resources Engineering, University of Moratuwa. en_US
dc.identifier.uri http://dl.lib.uom.lk/handle/123/17432
dc.description.abstract Laterite is used as the main alumina source for cement manufacturing process of some countries, and it decreases the lifespan of limestone deposits due to the high Fe content. This study focuses on the removal of iron oxide from laterite with studying the effect of pH, sonication time, and temperature. The iron removal from laterite was examined along with Cd and Mn. The raw and treated laterite were subjected to Loss of mass on Ignition (LOI), moisture, pH, Atomic Absorption Spectroscopy (AAS), X-ray Diffraction (XRD) and Fourier-Transform Infrared (FTIR) to understand the physical, chemical and mineralogical nature of the samples. The LOI, moisture, and p H of untreated laterite were 16.56%, 15.80% and 5.69, respectively. XRD results of untreated laterite revealed goethite and hematite as main Fe-rich minerals associated with gibbsite, kaolinite, and quartz. The solid to liquid ratio (1:10) and the particle size (63 pm) were constant, throughout the experiment. The optimal p H range for Fe, M n and Cd removal was examined with HCl (pH 1-5) and NaOH ( pH 6-10) at 300 K for 1800 s. pH 5.69 was the neutral pH value for this research. The Fe and M n removal efficiency were gradually increased when the pH from 5 to 1 and Fe had a sudden increment from pH 2 to pH 1. Cd removal efficiency was increased from pH 1-10. Therefore, the effective pH for Fe, Cd, and M n were 1, 7 and 1, respectively. Effective temperature and sonication time were conducted for pH 1 and 2. Fe removal w i t h temperature was examined with 313, 333, 353 and 373 K for 3600 s and 600, 900, 1800, 2700 and 3600 s at 300 K for sonication time. All elements removal efficiencies were increased with the temperature. Fe and M n had high removal efficiency at 900 s w i t h pH 1 , and Cd was recovered within 600 s w i t h pH 2 when sonication. The optimal condition of Fe ion removal for industrial applications is pH 1 w i t h 333 K temperature or pH 1 with 900 s sonication time. Under high temperature and basic pH conditions Cd can be removed effectively. The optimal condition for Mn is pH 1 w i t h 900 s sonication time. The goethite and hematite peaks can be identified in every XRD graphs of final treated laterite samples. en_US
dc.language.iso en en_US
dc.publisher Department of Earth Resources Engineering en_US
dc.subject Cement manufacturing en_US
dc.subject Leaching, en_US
dc.subject Temperature en_US
dc.subject Sonication en_US
dc.title The efficiency of iron oxide removal from laterite for industrial applications en_US
dc.type Conference-Abstract en_US
dc.identifier.faculty Engineering en_US
dc.identifier.department Department of Earth Resources Engineering en_US
dc.identifier.year 2019 en_US
dc.identifier.conference International Symposium on Earth Resources Management & Environment 2019 en_US
dc.identifier.place Colombo en_US
dc.identifier.pgnos p.125 en_US
dc.identifier.email imashagl@gmail.com en_US
dcterms.subject pH


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