利用棕榈油厂和西米厂废水作为发酵原料生产生物絮凝剂：絮凝的特性和机理。

Bioflocculant production using palm oil mill and sago mill effluent as a fermentation feedstock: Characterization and mechanism of flocculation.

机构信息

Department of Chemical and Process Engineering, Faculty of Engineering and Built Environment, Universiti Kebangsaan Malaysia, 43600, UKM Bangi, Selangor, Malaysia.

出版信息

J Environ Manage. 2020 Apr 15;260:110046. doi: 10.1016/j.jenvman.2019.110046. Epub 2020 Jan 20.

DOI:10.1016/j.jenvman.2019.110046

PMID:32090804

Abstract

This study was conducted to examine the production of bioflocculants using agricultural wastewater as a fermentation feedstock under different temperatures and incubation times. The mechanism of flocculation was studied to gain a detailed understanding of the flocculation activity. The highest bioflocculant yield (2.03 g/L) at a temperature of 40 °C was produced in a palm oil mill effluent medium (BioF-POME). Bioflocculant produced from a fermented SME medium (BioF-SME) showed the highest activity. The flocculation tests for colour and turbidity removal from lake water indicated that BioF-SME and BioF-POME performed comparably to commercial alum. Analyses of the bioflocculants using liquid chromatography-mass spectrometry (LC-MS) found that the bioflocculants contained xylose and glucose. The mechanism study showed that flocculation occurred through charge neutralization and interparticle bridging between the bioflocculant polymer and the particles in the lake water. Thus, agricultural wastewater can be used as a fermentation feedstock for high-quality bioflocculants.

摘要

本研究旨在考察不同温度和培养时间下，利用农业废水作为发酵原料生产生物絮凝剂。研究了絮凝机制，以深入了解絮凝活性。在棕榈油厂废水（BioF-POME）介质中，在 40°C 时产生了最高的生物絮凝剂产量（2.03 g/L）。来自发酵 SME 培养基的生物絮凝剂（BioF-SME）表现出最高的活性。对湖水的色度和浊度去除进行的絮凝试验表明，BioF-SME 和 BioF-POME 与商业明矾的性能相当。使用液相色谱-质谱（LC-MS）对生物絮凝剂进行分析发现，生物絮凝剂中含有木糖和葡萄糖。机制研究表明，絮凝是通过生物絮凝剂聚合物与湖水中颗粒之间的电荷中和和颗粒间桥接作用发生的。因此，农业废水可用作高质量生物絮凝剂的发酵原料。

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利用棕榈油厂和西米厂废水作为发酵原料生产生物絮凝剂：絮凝的特性和机理。

Bioflocculant production using palm oil mill and sago mill effluent as a fermentation feedstock: Characterization and mechanism of flocculation.

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