EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS

EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS

The preparation and characterization of porous ceramics multilayer ultrafiltration membrane is described. The first step consisted to prepare high-quality macroporous support in Moroccan clay. The choice of this material is based on its natural abundance and thermal stability.The microporous interla...

Full description

Bibliographic Details
Main Authors: S. Alami Younssi, A. Mouna, A. Laknifli, R. Mamouni, N. Saffaj, A. Albizane
Format: Article
Language:English
Published: Alma Mater Publishing House "Vasile Alecsandri" University of Bacau 2010-07-01
Series:Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
Subjects:
ultrafiltration membrane
ceramics multilayer
Moroccan clay
heavy metals
colorants
wastewater
Online Access:http://pubs.ub.ro/dwnl.php?id=CSCC6201011V02S01A0009
id doaj-42786363b5334df0974cec79e5982c4b
record_format Article
spelling doaj-42786363b5334df0974cec79e5982c4b2020-11-24T23:17:43ZengAlma Mater Publishing House "Vasile Alecsandri" University of BacauScientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry1582-540X2010-07-01112243254EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERSS. Alami YounssiA. MounaA. LaknifliR. MamouniN. SaffajA. AlbizaneThe preparation and characterization of porous ceramics multilayer ultrafiltration membrane is described. The first step consisted to prepare high-quality macroporous support in Moroccan clay. The choice of this material is based on its natural abundance and thermal stability.The microporous interlayer was then prepared by slip casting from zirconia commercial powders and finally the active UF toplayers was obtained by sol-gel route using ZnAl2O4 and TiO2 mixed sols. The performance of ultrafiltration membrane (TiO2 (50�20– ZnAl2O4 (50� was evaluated by pores diameter, water flux, thickness and molecular weight cut off (MWCO). The water permeability measured for this composite membrane is 9.42 L/(m2•h•bar), the thickness is less than 700 nm, the pore diameter is centered near 5 nm and the MWCO was about 4500 Da.http://pubs.ub.ro/dwnl.php?id=CSCC6201011V02S01A0009ultrafiltration membraneceramics multilayerMoroccan clayheavy metalscolorantswastewater
collection DOAJ
language English
format Article
sources DOAJ
author S. Alami Younssi
A. Mouna
A. Laknifli
R. Mamouni
N. Saffaj
A. Albizane
spellingShingle S. Alami Younssi
A. Mouna
A. Laknifli
R. Mamouni
N. Saffaj
A. Albizane
EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS
Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
ultrafiltration membrane
ceramics multilayer
Moroccan clay
heavy metals
colorants
wastewater
author_facet S. Alami Younssi
A. Mouna
A. Laknifli
R. Mamouni
N. Saffaj
A. Albizane
author_sort S. Alami Younssi
title EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS
title_short EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS
title_full EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS
title_fullStr EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS
title_full_unstemmed EFFICIENCY OF ULTRAFILTRATION CERAMIC MEMBRANES FOR TOXIC ELEMENTS REMOVAL FROM WASTEWATERS
title_sort efficiency of ultrafiltration ceramic membranes for toxic elements removal from wastewaters
publisher Alma Mater Publishing House "Vasile Alecsandri" University of Bacau
series Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
issn 1582-540X
publishDate 2010-07-01
description The preparation and characterization of porous ceramics multilayer ultrafiltration membrane is described. The first step consisted to prepare high-quality macroporous support in Moroccan clay. The choice of this material is based on its natural abundance and thermal stability.The microporous interlayer was then prepared by slip casting from zirconia commercial powders and finally the active UF toplayers was obtained by sol-gel route using ZnAl2O4 and TiO2 mixed sols. The performance of ultrafiltration membrane (TiO2 (50�20– ZnAl2O4 (50� was evaluated by pores diameter, water flux, thickness and molecular weight cut off (MWCO). The water permeability measured for this composite membrane is 9.42 L/(m2•h•bar), the thickness is less than 700 nm, the pore diameter is centered near 5 nm and the MWCO was about 4500 Da.
topic ultrafiltration membrane
ceramics multilayer
Moroccan clay
heavy metals
colorants
wastewater
url http://pubs.ub.ro/dwnl.php?id=CSCC6201011V02S01A0009
work_keys_str_mv AT salamiyounssi efficiencyofultrafiltrationceramicmembranesfortoxicelementsremovalfromwastewaters
AT amouna efficiencyofultrafiltrationceramicmembranesfortoxicelementsremovalfromwastewaters
AT alaknifli efficiencyofultrafiltrationceramicmembranesfortoxicelementsremovalfromwastewaters
AT rmamouni efficiencyofultrafiltrationceramicmembranesfortoxicelementsremovalfromwastewaters
AT nsaffaj efficiencyofultrafiltrationceramicmembranesfortoxicelementsremovalfromwastewaters
AT aalbizane efficiencyofultrafiltrationceramicmembranesfortoxicelementsremovalfromwastewaters
_version_ 1725583780335321088

Similar Items