pH值及电解质对水体中胶体颗粒Zeta电位的影响 【摘要】:介绍了关于pH值及电解质影响水中胶体Zeta电位的研究~并讨论了其原因。 【关键字】:pH值~电解质~胶体Zeta电位 1. 前言 电位在许多基础理论教学中都是一个非常重要的概念,电位的大小是衡量胶体粒子稳定性的重要参数,在胶体稳定理论中占有非常重要的地位。天然水或饮用水体系中往往含有大量悬浮体,这些悬浮体通过吸附/解离等方式而带上一定量电荷,而带电量的多少影响胶体粒子的稳定性,从而影响水质。通过Zeta电位的测定不仅可以判断水中胶体粒子的稳定性,而且还可以用来[1]选择合适的絮凝剂和监测最佳絮凝条件。不同条件下水体中常会含有一些无机盐和各种各样的表面活性物质,因此研究水体中胶体颗粒Zeta电位的影响因素对于控制胶体聚沉具有重要意义。本文主要介绍了关于pH值及阳离子对水体中胶体颗粒Zeta电位影响的研究,并讨论了其不同影响的原因。 2. pH值的影响 pH不仅直接影响到胶体颗粒的表面电荷,而且影响水环境中某些物质的性质及存在形态,是影响Zeta电位的最重要因数之一。 [2]根据蒋展鹏等的研究发现,同种胶粒尽管由于来源、准备方法的不同而受pH值的影响不同,但是Zeta电位与pH值的关系曲线的总体形状却非常相似。其Zeta电位随着pH值的增大而减小。 [3]根据王慧云等的pH对蒙脱土Zeta电位的影响,在实验pH值范围内(pH=3~11),蒙脱
土表面Zeta电位皆为负值,并且随着pH值升高负值增加。-这是因为当pH值增加时,越来越多的OH吸附到蒙脱土表面;并且蒙脱土表-面的羟基或边缘断键处产生的羟基也与更多的OH反应,从而使蒙脱土表面的 1/6页 [4]双电层结构发生了变化,其Zeta电位随pH值升高负值增加。Min Hoon Baik等的实验也同样证明了,当pH值升高,3种不同离子强度下的膨润土胶体体系的Zeta电位是随之减少的。 [5]而Maria Zaucha等的实验,当水环境中的pH<img src='data:image/jpg;base64,/9j/4AAQSkZJRgABAgAAAQABAAD/2wBDAAgGBgcGBQgHBwcJCQgKDBQNDAsLDBkSEw8UHRofHh0a
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