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Colour removal from textile effluent using agricultural waste as adsorbents

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dc.contributor.advisor Amarasinghe, P
dc.contributor.advisor Gunesekera, M
dc.contributor.author Jayasinghe, PA
dc.date.accessioned 2011-06-25T06:45:54Z
dc.date.available 2011-06-25T06:45:54Z
dc.identifier.citation Jayasinghe, P.A. (2006). Colour removal from textile effluent using agricultural waste as adsorbents [Master's theses, University of Moratuwa]. Institutional Repository University of Moratuwa. http://dl.lib.mrt.ac.lk/handle/123/1394
dc.identifier.uri http://dl.lib.mrt.ac.lk/handle/123/1394
dc.description.abstract The adsorption process is considered as one of the effective methods for colour removal from wastewater. In this study a number of low cost adsorbents were investigated in search of an alternative to commercial Granular Activated Carbon (GAC) which is an expensive material. Utilization of Coir dust, Rice husk, Saw Dust and Tea Waste has been investigated for its ability to adsorb dyes from aqueous solutions. The results showed high removals over 80% of Cibacron Blue dye by all four chemically treated adsorbents. The ground and sieved adsorbents were activated chemically by impregnating with an activation agent. The use of hydrochloric acid and zinc chloride were studied as chemical activation agents in this work. A hundred percent colour removal efficiency was observed for the system of HCI treated Coir Dust-Cibacron Blue and Coir Dust was identified as the best substitute for GAC. The batch experiments showed that the adsorption of dyes increased with the increase in contact time and adsorbent dose. Maximum decolourisation of all the dyes was observed at acidic pH. It was observed that contact time up to 4 hrs was required for the every adsorbent-dye system used in this study to attain equilibrium. The adsorption isotherm studies were performed on a laboratory scale setup with two different synthetic dye solutions made up of two different commercial grade dyes namely, Cibacron Blue and Lenazan Blue. The adsorption capacity for coir dust from this study was found to be 65 mg/g. This was as effective as GAC while others were less effective than GAC. The Langmuir & Freundlich adsorption models were applied to describe the equilibrium isotherms and both these models agreed very well with the. experimental data obtained in this work. The kinetics of the process was also evaluated by the pseudo first order and second order kinetic models. The results gathered from these experiments agreed very well with the first order kinetic model. Typical S shape breakthrough curves were obtained from packed bed adsorption experiments and 92-100% removal of the adsorbate was observed. The column experiments showed that decrease in initial concentration of dye solution, adsorbent particle size, flow rate and increase in bed depth produced higher breakthrough time with better bed performance. The Bed Depth Service Time (BDST) analysis carried out for the dye indicated a linear relationship between bed depth and service time. An 83% of colour removal and 72% of Chemical Oxygen Demand (COD) removal efficiencies were achieved using HCI treated Coir Dust for the textile wastewater samples containing a mixture of various dyes collected from and industrial establishment.
dc.language.iso en en_US
dc.subject CHEMICAL & PROCESS ENGINEERING-THESIS
dc.subject TEXTILE EFFLUENT-COLOUR REMOVEL
dc.title Colour removal from textile effluent using agricultural waste as adsorbents
dc.type Thesis-Abstract
dc.identifier.faculty Engineering en_US
dc.identifier.degree MSc en_US
dc.identifier.department Department of Chemical Engineering en_US
dc.date.accept 2006
dc.identifier.accno 85386 en_US


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