New Vegetal Biopolymeric Flocculant: A Degradation and Flocculation Study

iranica journal of energy and environment Pub Date : 2014-01-01 DOI:10.5829/IDOSI.IJEE.2014.05.01.05

I. Norli, N. Morad

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引用次数: 9

Abstract

Polyacrylamide (PAM) is known to pose a hazard to human health. A newly explored plant-based flocculant, malva nut gum (MNG) is hypothesized to treat water and as a green material. This study investigates the biodegradation, thermal degradation and photodegradation of MNG and its flocculation capability. The results show MNG has a high biodegradation rate and low oxygen consumption rate. MNG biodegraded at Day-17, whilst, PAM did not show completion of biodegradation by the end of the experiment. Thermal degradation analysis shows MNG has a few decomposition stages and ash content. The photodegradation analysis shows photochemical changes in the structure of MNG and PAM. Factorial experiments show pH, concentration of cation and the concentration of MNG were the influential factors in coagulation-flocculation process. Optimization study observed 97% turbidity reduction at pH 5.77, the concentration of cation at 0.05 mM and the concentration of MNG at 0.42 mg/L. Conclusively, MNG operates effectively at near neutral pH and at low concentration. Such results strongly suggest that MNG is a suitable candidate, which could be used to replace PAM, as flocculant in water treatment.

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新型植物生物高分子絮凝剂的降解与絮凝研究

众所周知，聚丙烯酰胺(PAM)会对人体健康造成危害。malva nut gum (MNG)是一种新开发的植物基絮凝剂，它可以处理水并作为一种绿色材料。研究了MNG的生物降解、热降解和光降解及其絮凝性能。结果表明，MNG具有较高的生物降解率和较低的耗氧量。MNG在第17天生物降解，而PAM在实验结束时未显示生物降解完成。热降解分析表明，MNG分解阶段少，灰分含量低。光降解分析表明MNG和PAM的结构发生了光化学变化。析因实验表明，pH、阳离子浓度和MNG浓度是混凝过程的影响因素。优化研究发现，pH为5.77、阳离子浓度为0.05 mM、MNG浓度为0.42 mg/L时，浊度降低97%。最后，MNG在接近中性pH值和低浓度下有效地工作。这些结果强烈表明MNG是一种合适的候选絮凝剂，可以替代PAM作为水处理中的絮凝剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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iranica journal of energy and environment

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