Abstract: The breakthrough curves of the particles of magmatic rock to uptake Fe3+ ions from aqueous solution were investigated using a fixed-bed sorption column. The effect of inlet Fe3+ concentration, feed flow rate, bed height, initial solution pH and particle size on the breakthrough characteristics of the sorption system were investigated. The highest experimental bed capacities for Fe3+ ions was obtained to be 3.65 mg.g-1 at inlet Fe3+ concentration of 75 ppm, bed height of 5 cm and flow rate of 5 mL.min-1, pH of 5 and particle size of 0.25-0.5 mm, respectively. The results indicated that magmatic rock material is a suitable sorbent for the uptake of Fe3+ ions from an aqueous solution.

• Publication Date: 08-May-2016
• DOI: 10.15224/978-1-63248-097-2-27
• Views: 0
• Downloads: 0

Abstract: The approach of this paper is to give evidence that compost, commonly produced by organic waste treatment, can be further utilized and treated as a precursor of activated carbon for Waste-Washing Wastewater treatment. The inorganic waste treatment generates harmful Waste-Washing Wastewater as by-product which is unreliable to total zero waste term in the integrated solid waste management. The Application of Compost-Based Activated Carbon is as filter for contaminant adsorption to be made as Compost Adsorption reactor for optimum treatment. The results show that Compost Adsorption treatment has a very good efficiency of high-turbidity removal and allows phosphate removal

• Publication Date: 08-May-2016
• DOI: 10.15224/978-1-63248-097-2-28
• Views: 0
• Downloads: 0