Julcelly Dayara de Oliveira Henriques scite author profile

Tubular ceramic microfiltration membranes were prepared by extruding thermally treated clay (TC) and raw clay (NC) mixtures in different fractions with the addition of cationic manioc starch. Previous studies have verified that membranes containing TC possess higher hydraulic permeability and permeate flow values than those containing only NC for application in crossflow filtration. However, TC membranes had a low mechanical strength. Therefore, this study aimed to increase the mechanical strength without adversely affecting their permeate flow and hydraulic permeability. The physical, mineralogical, and morphological characteristics of the membranes were determined. The membranes were used for microfiltration of Acutodesmus obliquus microalgae with applied pressure of 1 bar with a volumetric flow rate of 250 L/h at a temperature of 10 ± 5°C. The efficiency of each ceramic membrane was evaluated in terms of the permeate flow for water and microalgae and hydraulic permeability. The mixture of 70% TC, 15% starch fractions and sintered at 1150°C exhibited optimal performance in mechanical strength (15.1±0.2 MPa), water permeate flow of 522.4±0.3 Kg•m-2•h-1, microalgae permeate flow of 114.8±0.8 Kg•m-2•h-1 and hydraulic permeability of 568.0±0.3 Kg•m-2•h-1•bar.

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Water Pollution and Health

Bau¹,

Henriques²,

Ferreira³

et al. 1991

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Integrated Approaches to Water Pollution Problems

Bau¹,

Henriques²,

Ferreira³

et al. 1991

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