Electrokinetic Forces as an Electrical Measure of Chemical Aging Potential in Granular Materials

IF 2.8 Q2 ENGINEERING, CHEMICAL
Miguel Castilla-Barbosa, Orlando Rincón-Arango, Manuel Ocampo-Terreros
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引用次数: 0

Abstract

The zeta potential of soils is an electric potential in the double-layer interface and is a physical property exhibited by any particle related to electrochemical attractive forces. On the other hand, the chemical aging phenomenon is seen as the chief mechanism of the aging of sands due to the dissolution and precipitation of minerals, resulting in the development of the cementation of particles in granular mediums. The present investigation focuses on determining whether granular materials can generate cementation due to electrokinetic forces, and if the zeta potential could be related as a measure of the potential of chemical aging. X-ray fluorescence and diffraction tests were performed to characterize four representative fractions of one kind of sand, and zeta potential studies were carried out to determine the electrical potential on the mineral surfaces of each one. Zeta potential analysis showed both dependence on the mineralogical content and the variation in the pH of the colloidal solution fluid because the increase in OH- ion concentrations increases the thickness of the diffuse double layer and the electrokinetic forces of attraction. Moreover, the zeta potential showed an increase in the thickness of the diffuse double layer, due to the electrokinetic forces, which can be associated with the development of cohesive forces with a dependence on the mineralogy of sands.
电动势作为颗粒状材料化学老化电位的电学测量
土壤的zeta电位是双层界面上的电势,是任何颗粒所表现出的与电化学引力有关的物理性质。另一方面,化学老化现象被认为是砂土老化的主要机制,这是由于矿物的溶解和沉淀,导致颗粒介质中颗粒胶结的发展。目前的研究重点是确定颗粒材料是否可以由于电动力而产生胶结,以及zeta电位是否可以作为化学老化电位的衡量标准。x射线荧光和衍射测试对一种沙子的四个代表性组分进行了表征,并进行了泽塔电位研究,以确定每个组分的矿物表面的电势。Zeta电位分析表明,由于OH-离子浓度的增加增加了弥散双层的厚度和电动势的吸引力,胶体溶液流体的矿物学含量和pH的变化都有依赖性。此外,由于电动势的作用,zeta电位显示扩散双层厚度的增加,这可能与依赖于砂的矿物学的内聚力的发展有关。
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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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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