Study of Granulated Gypsum Hardness Coming from the Granulation Process in Rotating Disk

Laís Maia Rodrigues; Ricardo Francisco Pires; Davi Leonardo de Souza

doi:10.4028/www.scientific.net/MSF.899.160

Paper Titles

Study of the Influence of the Underflow Diameter on the Separation Process of an Optimized Hydrocyclone for Concentration Purposes
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A Fluid Dynamic Study in a Rotating Disk Applied in Granulation of Fertilizers
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The Influence of Pr and Mg Content on the Hydrogen Decrepitation of LaNi-Based Battery Alloys
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Comparative Study of the Optimized Hydrocyclones H13 and HCOT3 for Maximum Liquid Recovery
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Study of Granulated Gypsum Hardness Coming from the Granulation Process in Rotating Disk
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Characteristics of the Milk Powder Particles Lecithinated
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Global Reaction Model to Describe the Kinetics of Catalytic Pyrolysis of Coffee Grounds Waste
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Production and Characterization of Porous Titanium Applied in Biomaterial
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Effect of Bactericidal Elements Addition on the Microstructure and Mechanical Properties of Ti34Nb Alloy
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Study of Granulated Gypsum Hardness Coming from the Granulation Process in Rotating Disk

Abstract:

The granulation process is a unit operation with broad application in the fertilizer industry. The granular fertilizer has a better physical appearance, facility of agricultural application and elimination of fugitive dust in the production and bagging units. Phosphogypsum is a residue from the production of phosphate fertilizers. It known that for every 1 t of phosphate fertilizer produced, about 4 t of phosphogypsum are obtained, causing problems in storage and risks to the environment. Such problems may be minimized by granulating the waste phosphogypsum and using it in agriculture. This work aims at the construction of a laboratory-scale rotating disk granulator with a pre-established combination of reagents to promote granulation of the waste from phosphate fertilizer production. For construction of the equipment a theoretical study was performed in order to establish the principal variables influencing the granulation technique and the dimensions required for building the granulator. The equipment attained the expected results and the disc speed (22 to 250 rpm) and disc inclination (0 to 90 degrees) can be manipulated. In this paper three binders used were: Manioc starch, carboxymethyl cellulose (CMC) and polyvinyl alcohol (PVA), each at three different concentrations. The tests were conducted using a rotating disk granulator and hardness tests on a universal mechanical testing machine. The figures of merit used in this study were percentage particle size, hardness and sphericity of the granules obtained. With the analysis of the data, it can be concluded that the granulation process was adequate, considering the settings employed.