Tubular ultrafiltration ceramic membrane based on titania nanoparticles immobilized on macroporous clay-alumina support: Elaboration, characterization and application to dye removal

Oun, Abdallah; Tahri, Nouha; Mahouche‐Chergui, Samia; Carbonnier, Benjamin; Majumdar, Saikat; Sarkar, S.; Sahoo, Ganesh Chandra; Amar, Raja Ben

doi:10.1016/j.seppur.2017.07.005

Cited by 74 publications

(29 citation statements)

References 49 publications

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“…Many investigations have been conducted to study the application of different polymeric membranes either alone [95][96][97][98][99][100][101][102][103][104] or in combination with other techniques such as electrocoagulation [105] or biological treatment in the form of membrane bioreactor (MBR) [106][107][108][109][110][111] for the treatment of textile wastewaters, and for the recovery of dyes and salts [112][113][114][115][116]. However, in recent decades, ceramic membrane separation has attracted significant interest to treat textile effluents because of their reliable performance even in rough operational conditions [103,[117][118][119][120][121][122][123][124][125][126].…”

Section: Textile Industrymentioning

confidence: 99%

The application of pressure-driven ceramic membrane technology for the treatment of industrial wastewaters – A review

Samaei

Gato-Trinidad

Altaee

2018

Separation and Purification Technology

273

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This paper presents a review of the previous laboratory analysis and case studies on the application of the pressure-driven ceramic membrane technology for treatment of industrial wastewaters. Ceramic membranes has attracted remarkable interests in recent decades for industrial wastewater treatment because of their superior characteristic such as high fluxes , reliable working lifetime under aggressive operating conditions and ease of cleaning. The literature review revealed that the efficiency of this technology has been proven in a wide variety of wastewaters from different industries and activities including pulp and paper, textile, pharmaceutical, petrochemical, food and mining. However, there are still challenges and questions for this technology that need to be addressed in future researches such as investment cost optimisation by introducing new fabrication technologies, selectivity, permeability and packing densities improvement, fouling minimisation and proposing scale up based on experimental research results.

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Section: Textile Industrymentioning

confidence: 99%

The application of pressure-driven ceramic membrane technology for the treatment of industrial wastewaters – A review

Samaei

Gato-Trinidad

Altaee

2018

Separation and Purification Technology

273

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“…Several types of inorganic membranes are utilized for water treatment and desalination, however, ceramic membranes, in particular, have received a great attention. The ceramic membranes that are mostly used in water treatment and desalination are alumina, silica, titania, zirconia, zeolite and silicon carbide [274][275][276][277][278][279]. Nevertheless, the production cost of these membranes is very expensive, hence, cheaper raw materials were utilized to lower the production cost.…”

Section: Interfacial Polymerizationmentioning

confidence: 99%

“…However, the main drawbacks of this technique are the prolonged casting time, the difficulty in controlling the thickness and uniformity of the deposited film, and the mold breakage after few casts which, hence, new molds are required which raise the production cost [338]. Numerous materials such as alumina [285], titania [275], zirconia [339], and perovskite [340] have been utilized in slip casting technique to fabricate MF and UF ceramic membranes.…”

Section: -Slip Castingmentioning

confidence: 99%

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Membrane separation as a pre-treatment process for oily saline water

et al. 2018

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“…Most recently, Oun et al [65] prepared an UF membrane (mean pore diameter of about 50 nm) by simple deposition of TiO 2 nano-powder on the internal surface of the tubular porous clay-Al 2 O 3 membrane support. The membrane is the result of a combination of extrusion, sintering, and slip-casting methods.…”

Section: Dyes Removalmentioning

confidence: 99%

Alumina Membranes for Desalination and Water Treatment

Younssi¹,

Breida²,

Achiou³

2018

Desalination and Water Treatment

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In recent years, there has been a growing interest in utilizing inorganic membranes, particularly alumina (Al 2 O 3) ceramic membranes (CMs), and to address a variety of separation problems in miscellaneous industry. Al 2 O 3 membranes are commercially predominant in CMs market. Al 2 O 3 material is generally used either as membrane support and/or as membrane layer due to advantages provided by this material and its derivatives such as availability in tonnage quantities, chemical inertness, good hardness, and thermal stability of the porous texture during elaboration steps. In this chapter, we comprehensibly look at the recent studies related to desalination and water treatment by ultrafiltration (UF), nanofiltration (NF) Al 2 O 3 membrane, and highlight the separation properties of the membrane in specific environmental pollution. The influences of membrane operating conditions and water quality on the rejection of pollutant by Al 2 O 3 membrane are reported through a series of bench-level experiments.

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Tubular ultrafiltration ceramic membrane based on titania nanoparticles immobilized on macroporous clay-alumina support: Elaboration, characterization and application to dye removal

Cited by 74 publications

References 49 publications

The application of pressure-driven ceramic membrane technology for the treatment of industrial wastewaters – A review

The application of pressure-driven ceramic membrane technology for the treatment of industrial wastewaters – A review

Membrane separation as a pre-treatment process for oily saline water

Alumina Membranes for Desalination and Water Treatment

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