polyacrylamide-based inorganic hybrid flocculants with self

polyacrylamide-based inorganic hybrid flocculants with self

Polyacrylamide-based inorganic hybrid flocculants with self

A new polyacrylamide (PAM)-based inorganic hybrid flocculants with self-degradable property was developed. TiO 2 nanoparticles show a unique surface-initiated property under the condition of visible light. We designed a facile strategy for the synthesis of inorganic [email protected] 2 @PAM hybrid materials.

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polyacrylamide-based inorganic hybrid flocculants with self

Polyacrylamide-based inorganic hybrid flocculants with self

A new polyacrylamide (PAM)-based inorganic hybrid flocculants with self-degradable property was developed. • TiO 2 nanoparticles show a unique surface-initiated property under the condition of visible light. • We designed a facile strategy for the synthesis of inorganic [email protected] 2 @PAM hybrid materials.

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polyacrylamide-based inorganic hybrid flocculants with self

Polyacrylamide-based inorganic hybrid flocculants with self

Polyacrylamide (PAM)-based inorganic hybrid materials are of great potential as flocculants in soil-liquid separation. Herein, we reported the design of inorganic soil-TiO2-PAM hybrid materials

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polyacrylamide-based inorganic hybrid flocculants

polyacrylamide-based inorganic hybrid flocculants

polyacrylamide based flocculant. Polyacrylamide-based inorganic hybrid flocculants with. 2017-05-01· A new polyacrylamide (PAM)-based inorganic hybrid flocculants with self-degradable property was developed. • TiO 2 nanoparticles show a unique surface-initiated property under the condition of visible light..

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a novel flocculant of al(oh)3—polyacrylamide ionic hybrid

A Novel Flocculant of Al(OH)3—Polyacrylamide Ionic Hybrid

Polyacrylamide (PAM)-based inorganic hybrid materials are of great potential as flocculants in soil-liquid separation. we proposed an organic-inorganic composite flocculant with self-degrading

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study of al(oh)3−polyacrylamide-induced pelleting

Study of Al(OH)3−Polyacrylamide-Induced Pelleting

A nanocomposite polymer, Al(OH)3−polyacrylamide (Al-PAM) hybrid, was tested as a flocculant. This novel hybrid polymer was found to induce pellet-like floccules, leading to a more effective solid−liquid separation than common polyacrylamide (PAM)-based flocculants. To understand the mechanism of Al-PAM-induced pelleting flocculation, the

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adsorption kinetics of a novel organic–inorganic hybrid

Adsorption Kinetics of a Novel Organic–Inorganic Hybrid

Adsorption kinetics of an organic–inorganic hybrid polymer, Al(OH)3–polyacrylamide (Al-PAM), on silica and alumina were studied by a dissipative quartz crystal microbalance (QCM-D). The effects of molecular weight and aluminum content of Al-PAM on its adsorption at varying solution pH were investigated. For comparison, the adsorption of a commercial partially hydrolyzed polyacrylamide

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water‐soluble polymers for oil sands tailing treatment: a

Water‐soluble polymers for oil sands tailing treatment: A

This review presents a comparison between PAM flocculants and two promising alternative flocculants: inorganic‐organic hybrid and temperature‐sensitive polymers. Each flocculant type is evaluated in terms of its flocculation mechanisms and its dewatering efficacy.

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