Novel biodegradable polymeric flocculants based on cationic polysaccharides

Singh, R. P.; Pal, Sagar; Ali, Sk. Akbar

doi:10.5185/amlett.2013.6498

Cited by 46 publications

(36 citation statements)

References 43 publications

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“…The flocculation efficiency of the native gums increased after modifications from 60.76% (ASN) to 96.03% (ASG) and 60.80% (AGN) to 96.38% (AGG) at 10 ppm, with significant increase as the dosage increased. The better flocculation efficacy exhibited by the graft copolymerized Albizia gums (ASG and AGG) compared with their native gums (ASN and AGN) may be due to their higher intrinsic viscosity as evidenced in Table 1 [22,37]. AG gum has better flocculant characteristic in the native and the modified gums compared with AS.…”

Section: Flocculation Efficiency Of the Gumsmentioning

confidence: 99%

“…AG gum has better flocculant characteristic in the native and the modified gums compared with AS. Branching and molecular weight of polymer chains determine the effectiveness of flocculants [37]. The floc formation is higher in high-molecular-weight branched polysaccharide backbone with flexible grafted polyacrylamide chains.…”

Section: Flocculation Efficiency Of the Gumsmentioning

confidence: 99%

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Characterization of Native and Graft Copolymerized Albizia Gums and Their Application as a Flocculant

Afolabi

Adekanmi

2017

Journal of Polymers

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The functional properties and flocculation efficiency of purified Albizia saman (AS) and Albizia glaberrima (AG) gum exudates modified by graft copolymerization with acrylamide were investigated. The grafting efficiency of AS and AG was 54 and 58%, respectively. The cold water-insoluble gel of native AS and AG was 38.23 and 35.55%, which increased to 39.75 and 40.55% after graft copolymerization. Graft copolymerization of AS and AG gums reduced their oil binding and emulsion capacity from 4.89 and 3.44% to 3.69 and 2.40%, respectively. The dissolution kinetics of the native gums between 40 and 90 ∘ C and 0 and 150 min revealed a steady increase in solubility of the native gums from 6.05 to 9.53 g/L (AS) and 5.90 to 8.78 g/L (AG). The flocculation efficiency of the native AS and AG gums at 50 ppm concentration was 74.30 and 74.73%, which increased to 98.46% and 98.29% in the graft copolymerized gums, respectively.

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Section: Flocculation Efficiency Of the Gumsmentioning

confidence: 99%

Section: Flocculation Efficiency Of the Gumsmentioning

confidence: 99%

Characterization of Native and Graft Copolymerized Albizia Gums and Their Application as a Flocculant

Afolabi

Adekanmi

2017

Journal of Polymers

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“…Hence, the interest in acrylamide grafted natural polymer has increased over the years owing to their multi-faceted application in many domains. Singh et al (2000) reported a large number of graft copolymers of acrylamide (AM) with polysaccharides such as guargum, xanthan gum, sodium alginate, carboxylic methyl cellulose and starch using ceric ion/HNO 3 acid as redox initiator. Ceric ammonium nitrate (CAN) induced grafting of AM with psyllium is directed towards understanding the influence of concentrations of AM and CAN in the reaction mixture, on percentage grafting by preparing different samples (Mishra et al 2002b).…”

Section: Introductionmentioning

confidence: 99%

Polymethacrylic acid grafted psyllium (Psy-g-PMA): a novel material for waste water treatment

et al. 2013

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Polymethacrylic acid grafted psyllium (Psy-g-PMA) was synthesized by microwave assisted method, which involves a microwave irradiation in synergism with silver sulfate as a free radical initiator to initiate grafting reaction. Psy-g-PMA grades have been synthesized and characterized on structural basis (elemental analysis, FTIR spectroscopy, intrinsic viscosity study) as well as morphological and thermal studies, taking psyllium as reference. The effects of reaction time, amount of monomer and silver sulfate (free radical initiator) on grafting of PMA on psyllium backbone have been studied. It is observed that all the grades of Psy-g-PMA have higher intrinsic viscosities than that of psyllium. The best synthesized grade was Psyg-PMA having intrinsic viscosity of 6.93 and 58 % grafting of PMA on the main polymer backbone. Further Psy-g-PMA applications as flocculants for waste water treatment have been investigated. Psy-g-PMA resulted in higher decrease in the flocculation parameters such as total dissolved solid or total solids compared to psyllium. Hence the result shows the possible application of grafted psyllium in wastewater treatment.

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“…Beyond the optimum level, the grafted chains lose their flexibility and behave like a rigid rod. The flocculation efficiency of the above graft copolymers is found to be much higher than that of commercial polyacrylamide-based flocculants because of their greater degree of branching and higher molecular weight [10][11][12][13]. …”

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confidence: 99%

Synthesis, Characterization and Flocculation Characteristics of Polysaccharide Graft Copolymers

Gp¹

2017

RDMS

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Res Dev Material Sciapproachability to the particles in colloidal suspensions increases. There is an optimum degree of hydrolysis where grafted chains get straightened but have some degree of flexibility. Beyond the optimum level, the grafted chains lose their flexibility and behave like a rigid rod. The flocculation efficiency of the above graft copolymers is found to be much higher than that of commercial polyacrylamide-based flocculants because of their greater degree of branching and higher molecular weight [10][11][12][13].

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Novel biodegradable polymeric flocculants based on cationic polysaccharides

Cited by 46 publications

References 43 publications

Characterization of Native and Graft Copolymerized Albizia Gums and Their Application as a Flocculant

Characterization of Native and Graft Copolymerized Albizia Gums and Their Application as a Flocculant

Polymethacrylic acid grafted psyllium (Psy-g-PMA): a novel material for waste water treatment

Synthesis, Characterization and Flocculation Characteristics of Polysaccharide Graft Copolymers

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