Chitosan Modified Cationic Polyacrylamide Initiated by UV-H2O2 for Sludge Flocculation and New Insight on the Floc Characteristics Study

Jie Chen; Xiaojun Xu; Rui Nie; Li Feng; Xuhao Li; Bingzhi Liu

doi:10.3390/polym12112738

Polymers (Nov 2020)

Chitosan Modified Cationic Polyacrylamide Initiated by UV-H2O2 for Sludge Flocculation and New Insight on the Floc Characteristics Study

Jie Chen,
Xiaojun Xu,
Rui Nie,
Li Feng,
Xuhao Li,
Bingzhi Liu

Affiliations

Jie Chen: Faculty of Environmental Science and Engineering, Kunming University of Science and Technology, Kunming 650500, China
Xiaojun Xu: Faculty of Environmental Science and Engineering, Kunming University of Science and Technology, Kunming 650500, China
Rui Nie: Faculty of Environmental Science and Engineering, Kunming University of Science and Technology, Kunming 650500, China
Li Feng: School of Civil and Transportation Engineering, Guangdong University of Technology, Guangzhou 510006, China
Xuhao Li: School of Civil and Transportation Engineering, Guangdong University of Technology, Guangzhou 510006, China
Bingzhi Liu: School of Civil and Transportation Engineering, Guangdong University of Technology, Guangzhou 510006, China

DOI: https://doi.org/10.3390/polym12112738
Journal volume & issue: Vol. 12, no. 11
p. 2738

Abstract

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In the present study, a novel graft modified flocculant CTS-g-PAMD was synthesized and applied to conduct sludge conditioning and dewatering. CTS-g-PAMD was copolymerized with AM, DMC and chitosan (CTS) under UV-H2O2 initiation. In addition, the effects of single factor experiments on the molecular weight (MW) CTS grafting efficiency (GE) of CTS-g-PAMD were determined and the optimal copolymerization conditions were achieved. The GE of CTS-g-PAMD reached 91.1% and the MW was 4.82 × 106 Da. As revealed from the characterized results of Fourier-transform infrared spectra (FT-IR), 1H/ NMR, X-ray diffraction (XRD), scanning electron microscopic (SEM) and X-ray photoelectron spectroscopy (XPS), the successful synthesis of CTS-g-PAMD was confirmed, which is considered to be conducive to explaining sludge dewatering performance. Under the optimal conditions (pH = 7.0, flocculant dosage = 35 mg/L), the best flocculating performance (FCMC: 73.7%; SRF: 4.7 × 1012 m·kg−1, turbidity: 9.4 NTU) and large and dense sludge flocs (floc size d50 = 379.142 µm, floc fractal dimension Df = 1.58) were formed. The DMC and CTS chain segments exhibiting cationic properties significantly improved the positive charge density and enhanced the electrical patching effect of CTS-g-PAMD. The long molecular chain of CTS-g-PAMD exhibited superior extensibility, which enhanced bridging effect on adsorption. Moreover, the sludge floc after undergoing CTS-g-PAMD conditioning exhibited robust shear resistance and regeneration ability. After the sludge floc was crushed and broken, a large and dense sludge floc was formed, helping significantly reduce the sludge specific resistance (SRF), turbidity and cake moisture content (FCMC) and enhance the sludge dewatering effect. The novel CTS-g-PAMD flocculant shows promising practical applications and high market value.

Published in Polymers

ISSN: 2073-4360 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Organic chemistry
Website: http://www.mdpi.com/journal/polymers/

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