Aggeliki Stathoulopoulou scite author profile

This paper reports the inhibition efficiency of a family of synthetic amine/ammonium-containing cationic polymers in colloidal silica particle growth. Three polymeric additives were tested and compared to control samples. These are polyethyleneimine (PEI), polyallylamine hydrochloride (PALAM), and poly(acrylamideco-diallyldimethylammonium chloride) (PAMALAM). Two sets of experiments were carried out: long term (0-72 h) and short term (0-8 h). There is a strong dependence of silica inhibition on additive dosage. The optimum dosages are 10 ppm for PEI, 20 ppm for PALAM, and 80-100 ppm for PAMALAM. PEI (at 10 ppm dosage) reaches 55% inhibitory efficiency at 24 h (defined as reactive silica in ppm at the time of measurement divided by 500 ppm, or multiplied by 100 for % efficiency). PALAM shows 65% inhibitory activity at 20 ppm, after 24 h. PAMALAM at 80 ppm dosage exhibits 60% inhibition. Inhibitory activity is reduced upon longer silicate polymerization times (48 and 72 h). Inhibition within the first 8 h is efficient with all three inhibitors exhibiting small differences in performance. There is ∼130 ppm silicate stabilization over the control after 72 h of polymerization. These inhibitors present potential for water treatment applications.

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Industrial water systems: problems, challenges and solutions for the process industries

Demadis

et al. 2007

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Bioinspired control of colloidal silica in vitro by dual polymeric assemblies of zwitterionic phosphomethylated chitosan and polycations or polyanions

Demadis

Pachis

Ketsetzi

et al. 2009

Advances in Colloid and Interface Science

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Environmentally benign chemical additives in the treatment and chemical cleaning of process water systems: Implications for green chemical technology

et al. 2007

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