Sibdas Bandyopadhyay scite author profile

NaP zeolite nano crystals were synthesized by sonochemical method at room temperature with crystallization time of 3h. For comparison, to insure the effect of sonochemical method, the hydrothermal method at conventional synthesis condition, with same initial sol composition was studied. NaP zeolites are directly formed by ultrasonic treatment without the application of autogenous pressure and also hydrothermal treatment. The effect of ultrasonic energy and irradiation time showed that with increasing sonication energy, the crystallinity of the powders decreased but phase purity remain unchanged. The synthesized powders were characterized by XRD, IR, DTA TGA, FESEM, and TEM analysis. FESEM images revealed that 50 nm zeolite crystals were formed at room temperature by using sonochemical method. However, agglomerated particles having cactus/cabbage like structure was obtained by sonochemical method followed by hydrothermal treatment. In sonochemical process, formation of cavitation and the collapsing of bubbles produced huge energy which is sufficient for crystallization of zeolite compared to that supplied by hydrothermal process for conventional synthesis. With increasing irradiation energy and time, the crystallinity of the synthesized zeolite samples increased slightly.

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New clay–alumina porous capillary supports for filtration application

Sarkar

Bandyopadhyay

Larbot

et al. 2012

Journal of Membrane Science

101

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Combination technology of ceramic microfiltration and reverse osmosis for tannery wastewater recovery

Bhattacharya

Roy

Sarkar

et al. 2013

Water Resources and Industry

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Kinetic study of adsorption and photo-decolorization of Reactive Red 198 on TiO2 surface

Dutta¹,

Parsons²,

Bhattacharjee³

et al. 2009

Chemical Engineering Journal

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a b s t r a c tRecycling and reuse of wastewater after purification will reduce the environmental pollution as well as fulfill the increasing demand of water. Adsorption-based water treatment process is very popular for dye-house wastewater treatment. The present study deals with treatment of wastewater contaminated by reactive dye. TiO 2 is used as adsorbent and the spent adsorbent has been regenerated by Advanced Oxidation Process (AOP), without using any other chemicals. TiO 2 adsorbs dye molecules and then those dye molecules have been oxidized via a photocatalytic reaction in presence of UV irradiation. Kinetics of dye adsorption and photocatalytic oxidation reaction has been developed in this study. Photocatalyst adsorbent (TiO 2 ) has been reused several times after regeneration. The activity of catalyst decreases after each cycle; due to poisoning cause by intermediate by-products. Kinetic of this catalyst deactivation has been incorporated with L-H model to develop the photocatalytic reaction kinetic model.

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Highly oriented improved SAPO 34 membrane on low cost support for hydrogen gas separation

Das

Bandyopadhyay

2013

J. Mater. Chem. A

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