与失水程度和比表面积有关的浸入热:CoCl2和nicl2负载的氧化铝作为干燥剂材料

A.M. Khalil
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引用次数: 0

摘要

负载CoCl2和NiCl2的氧化铝在真空中在20 ~ 500℃的不同温度下进行热脱水。测定了热处理样品的失水、氮表面积和水浸积分热。用几种方法对所调查的样品进行了分析。通过Va-t法检测孔隙度的变化。采用修正后的无模型方法确定了表面位置,并计算了位于介孔中的面积分数。这个分数表示各种样品对氮吸附分子和较小的水分子的表面可及性。积分浸没热和失水均归一化为单位氮布鲁诺尔-埃米特-泰勒表面积。单位面积浸没热与单位面积失水随热处理温度变化的对应关系表明,在高温下发生了可逆的脱水-水化现象。由于具有最高的水分子表面可及性和相对较高的浸没热的样品可以被认为是有效的脱水材料,从我们的结果可以得出结论,cocl2负载的氧化铝应该在400°C下热处理以获得最佳的干燥剂性能。然而,nicl2负载的氧化铝需要在200°C下热处理。提出并讨论了进一步的细节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heats of immersion related to the extent of water loss and specific surface area: CoCl2- and NiCl2-loaded aluminas as dessicant materials

CoCl2- and NiCl2- loaded aluminas were thermally dehrdrated in vacuo at various temperatures ranging from 20 to 500 °C. The water loss, nitrogen surface area and integral heat of water immersion were determined for the thermally treated samples. The samples inder investigation were analysed using several methods. Changes in porosity were detected by means of the Va-t method. The corrected modelless method was used to determine the surface locations, and the area fraction located in the mesopores was also calculated. This fraction denotes the surface accessibility of various samples for nitrogen adsorbate molecules as well as for the smaller water molecules.

Both the integral heat of immersion and the water loss were normalized to the unit nitrogen Brunauer-Emmett-Teller surface area. The correspondence between the changes in the heat of immersion per unit area and the water loss per unit area when they are plotted as functions of the heat treatment temperature indicated that a reversible dehydration-hydration phenomenon occured at high treatment temperatures.

Since samples which have the highest surface accessibility for water molecules and are characterized by a relatively high heat of immersion can be assumed to be effective dehydrating materials, it can be concluded from our results that CoCl2-loaded alumina should be heat treated at 400 °C to obtain optimum dessicant properties. However, the NiCl2-loaded alumina requires heat treatment at 200 °C. Further details are presented and discussed.

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