Adsorption of vanillin using macroporous resin H103

Samah R.; Zainol N.; Yee P.; Pawing C.; Abd-Aziz S.

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Adsorption of vanillin using macroporous resin H103

机译：大孔树脂H103对香兰素的吸附

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Six resins (Amberlite XAD-16, Amberlite XAD-2, Sepabeads SP207, DIAION HP-20, DM11 and H103) were tested for vanillin adsorption in aqueous solution. All of the resins gave more than 95% adsorption rate except for Amberlite XAD-2 and DM11. Resin H103 was selected for the subsequent work due to its high adsorption capacity and low cost. A kinetic analysis revealed that the adsorption process followed pseudo-second-order kinetic model and occurred rapidly. The equilibrium point was reached after 90 minutes of reaction. Adsorption isotherm was also determined at 25 C and it was fitted to Langmuir and Freundlich equations using linear regression and non-linear regression (sum of squares) methods. The regression shows that the adsorption of vanillin onto resin H103 followed Langmuir model (R2 = 0.9984) with a maximum capacity of 73.015 mg/g.

机译：测试了六种树脂（Amberlite XAD-16，Amberlite XAD-2，Sepabeads SP207，DIAION HP-20，DM11和H103）对香草醛在水溶液中的吸附。除Amberlite XAD-2和DM11外，所有树脂均具有超过95％的吸附率。树脂H103因其高吸附能力和低成本而被选择用于后续工作。动力学分析表明，吸附过程遵循伪二级动力学模型并且迅速发生。反应90分钟后达到平衡点。还可以在25°C下测定吸附等温线，并使用线性回归和非线性回归（平方和）方法将其拟合到Langmuir和Freundlich方程。回归表明，香兰素在树脂H103上的吸附遵循Langmuir模型（R2 = 0.9984），最大容量为73.015 mg / g。

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《Adsorption Science & Technology》 |2013年第7期|共12页
作者
Samah R.; Zainol N.; Yee P.; Pawing C.; Abd-Aziz S.;
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正文语种 eng
中图分类化学;
关键词
Adsorption; vanillin; resin;

机译：吸附;香兰素;树脂;

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1. Adsorption of vanillin using macroporous resin H103 [J] . Samah R., Zainol N., Yee P., Adsorption Science & Technology . 2013,第7期

机译：大孔树脂H103对香兰素的吸附
2. Separation of Vanillin and Syringaldehyde from Oxygen Delignification Spent Liquor by Macroporous Resin Adsorption [J] . Zhaojiang Wang, Kefu Chen, Jun Li, Clean . 2010,第11期

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3. Recovery of vanillin from aqueous solutions using macroporous adsorption resins. [J] . Qing-Feng Zhang, Zi-Tao Jiang, Hong-Juan Gao, European food research and technology =: Zeitschrift fur Lebensmittel-Untersuchung und -Forschung. A . 2008,第3期

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4. Modeling of vanillin adsorption from aqueous solution using resin H103 by artificial neural network [C] . W S Chan, R A Samah, N Zainol ProSES Symposium . 2020

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Adsorption of vanillin using macroporous resin H103

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