马六甲一家水处理厂水处理污泥 (WTS) 的特性分析

A. R. Saleman, Ridhwan Jumaidin, Al Amin Mohamed Sultan, U. Azlan, Muhammad Zulfattah Zakaria
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摘要

水处理污泥(WTS)是水处理厂(WTP)生产过程中产生的一种副产品。据估计,一个普通的水处理厂每天产生的水处理污泥超过 10,000 吨,这已成为水处理污泥管理中的一个主要问题。为确定 WTS 的安全处置方法和再利用潜力,此前已完成了大量研究。在大多数研究中,采用的方法都是材料特征描述。众所周知,每个污水处理厂都会根据原水取水量和处理工艺产生不同化学成分的 WTS。本文旨在研究马六甲污水处理厂的 WTS 化学成分。WTS 样品是从压榨工艺后的 WTP 收集的,其中大量的水已被去除。样品使用扫描电子显微镜与能量色散 X 射线(SEM-EDX)和 X 射线衍射(XRD)进行测试。SEM-EDX 结果显示,按重量百分比(%)计算,WTS 含有锆(Zr)(28%-46%)、氧(28%-40%)和碳(7%-26%)。铝和硅的重量百分比为 7%至 8%。X 射线衍射证实了这些结果,X 射线衍射显示在 2θ 的 35.3 和 36.1 左右存在高强度的锆和α-锆。根据这些发现,WTS 的合适和潜在再利用方式是提取锆。不过,还需要进一步研究来验证 WTS 中 Zr 的一致性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterisation of Water Treatment Sludge (WTS) at a Water Treatment Plant in Melaka
Water treatment sludge (WTS) is a by-product produced in the process of water treatment plants (WTP). It is estimated that an ordinary WTP produces over 10,000 tonnes of WTS per day, which has become a major concern in the management of WTS. Numerous previous studies have been accomplished to determine a safe disposal method and the potential reuse of WTS. In most investigations, material characterisation was the adopted method. It is known that each WTP produces different chemical composition of WTS according to raw water intake and the treatment process. The aim of this paper is to examine the chemical composition of WTS in the WTP at Melaka. The WTS sample is collected from WTP after the pressing process, where large amounts of water have been removed. The sample is tested using the Scanning Electron Microscopy with energy dispersive X-ray (SEM-EDX) and X-ray Diffraction (XRD). The SEM-EDX results revealed that by weight percentage (%), WTS contains zirconium (Zr) (28 to 46%), oxygen (28 to 40%) and carbon (7 to 26%). Aluminium and silicon have weight percentages ranging from 7 to 8%. The outcomes are then confirmed by XRD, which showed the high intensity of Zr and α-Zr at approximately 35.3 and 36.1. of 2θ. Based on these findings, the suitable and potential reuse of WTS would be the extraction of Zr. However, further research is required to verify the consistency of Zr in WTS.
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