表面活性剂CTAB(十六烷基三甲基溴化铵)改性天然粘土表面对Cr(VI)的吸附研究

M. Maksum, S. N. Khalifah, A. Prasetyo
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摘要

粘土是一种由二氧化硅-氧化铝基架组成的矿物颗粒,具有层状结构和中空空间,使其表面成为非常广泛和有效的吸附剂。粘土的吸附剂对表面带负电荷的阳离子有很好的吸附效果,但对阴离子的吸附能力很低,如在pH为2的hcro4 -中形成的Cr(VI)。本研究对活化过程中的粘土进行了化学上、化学上、化学上、化学上、化学上、化学上、化学上、化学上、化学上、物理上、化学上、物理上分别对温度为200、300、400℃的粘土进行了研究,并对CTAB表面活性剂25、50、75进行了改性。100 mM对Cr(VI)的吸附能力增强。研究结果表明,对天然粘土进行活化和改性处理后,对Cr(VI)的吸附能力提高较大。天然粘土活化前的吸附量Qe为0,0971 mg/g,而天然粘土活化前的吸附量Qe = 0,1756 mg/g表明,Na -粘土对Cr(VI)的吸附量增加了7.85%。使用0.5 M h2so4的活化吸附量提高21,44%,达到Qe = 0,3115 mg/g。物理活化处理后化学活化效果最好,表明在200℃温度下吸附量增加29.82%,吸附值Qe = 0,3953 mg/g。而改性后的粘土处理的物理活化效果最好,得到CTAB浓度为25 mM,吸附量提高了94.54%,Qe = 1 0425 mg/g。
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THE STUDY OF ADSORPTION ON Cr(VI) IN NATURAL CLAY SURFACE MODIFIED WITH SURFACTANT CTAB (Cetyltrimethylammonium Bromide)
Clay is a mineral particles composed of silica - alumina base frame , has a layered structure and a hollowed space causing surface becomes very widespread and effective as an adsorbent . A dsorbent o f clay is very effective to adsorb cation for having negatively charged surfaces , but its ability to adsorb anion is very low , such as Cr( VI) formed in HCrO 4 - at pH 2 . This research has been conducted in the clay of activation process chemically with the variation of H 2 SO 4 0,5, 1,0 , 1,5 and 2,0 M and physically with the variation in the temperature of 200 , 300 , 400 ­ °C as well as modifying the surface with the variation of CTAB surfactant 25 , 50, 75 , and 100 mM to enhance the adsorption of Cr( VI). The results of study showed that the treatment on the activation and modification of natural clay can increase the adsorption capacity of Cr( VI) is greater. Adsorption capacity ( Qe) before activating the natural clay is 0,0971 mg/g , while the Na - clay increased adsorption of Cr( VI) at 7,85 % as indicated by Qe = 0,1756 mg/g of natural clay . The use of 0,5 M H 2 SO 4 activation of adsorption increased by 21,44 % to the value of Qe = 0,3115 mg/g . The treatment of physically activation after activating the best chemical showed at a temperature of 200°C with an increase of 29,82 % adsorption of value Qe = 0,3953 mg/g . While modification to the clay treatment results in the best physical activation get CTAB 25 mM concentration with increased adsorption of 94,54 % with a value of Qe = 1,0425 mg/g .
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