通过分子模拟研究了活性炭对六氯环己烷和C6H6的竞争吸附特性。

IF 2.1 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Zhiqiang Wang, Zhaoyang Liu, Bo Wang, Jingjing Pei
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引用次数: 0

摘要

为了探讨甲醛(HCHO)和苯(C6H6)在活性炭上的竞争吸附特性,采用1 nm,2 nm和4 使用Materials Studio分子模拟软件的Visualizer模块构建了nm。采用大正则蒙特卡罗方法研究了单组分C6H6和六氯环己烷在288.15K、293.15K和323.15K三种不同温度下的吸附行为。通过实验验证了仿真结果的准确性。对于单一化合物吸附,C6H6的吸附量在不同温度条件下变化不大,而孔径对C6H6吸附量有显著影响,并且吸附能力随着孔径的增大而增加。随着温度的升高,六氯环己烷的吸附能力下降,而两者的吸附能力均为1 nm和4 纳米孔径的活性炭小于2 nm孔径。在竞争吸附方面,当孔径较小(如1)时,活性炭对六氯环己烷的吸附效果较好 纳米,而C6H6的竞争吸附能力比HCHO要好得多,因为孔径增加到2 nm或4 nm。启示:(1)基于多组分挥发性有机物共存,在分子水平上理解活性炭吸附的平衡过程。(2) 分析了浓度、温度和湿度因素对苯和甲醛竞争吸附动态平衡耦合的影响。(3) 使用实验方法验证了分子模拟的准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The characteristic of competitive adsorption of HCHO and C6H6 on activated carbon by molecular simulation.

To explore the characteristic of competitive adsorption of formaldehyde (HCHO) and benzene(C6H6) on activated carbon, the slit models of activated carbon with different pore sizes of 1 nm, 2 nm and 4 nm were constructed by using the Visualizer module of Materials Studio molecular simulation software. The adsorption of single-component C6H6 and HCHO at three different temperatures of 288.15K,293.15K and 323.15K were conducted by the method of grand canonical Monte Carlo. Experiments were carried out to verify the accuracy of simulation results. For the single-compound adsorption, the adsorption amount of C6H6 varied little at different temperature conditions, while the pore size had a significant effect on the adsorption amount of C6H6, and the adsorption capability increased as the pore size goes up. The adsorption capacity of HCHO decreased as the temperature goes up, and the adsorption capacity of both 1 nm and 4 nm pore size activated carbon was less than that of 2 nm pore size. As for the competitive adsorption, HCHO has a better adsorption effect by activated carbon when the pore is in small size like 1 nm, while the competitive adsorption ability of C6H6 is much better than HCHO as the pore size goes up to 2 nm or 4 nm.Implications: (1) Understanding the equilibrium process of activated carbon adsorption at the molecular level based on the co-existence of multi-component VOCs. (2) The effects of concentration, temperature and humidity factors on the coupling of the dynamic equilibrium of competing adsorption of benzene and formaldehyde were analyzed. (3) The accuracy of the molecular simulations was verified using an experimental approach.

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来源期刊
Journal of the Air & Waste Management Association
Journal of the Air & Waste Management Association ENGINEERING, ENVIRONMENTAL-ENVIRONMENTAL SCIENCES
CiteScore
5.00
自引率
3.70%
发文量
95
审稿时长
3 months
期刊介绍: The Journal of the Air & Waste Management Association (J&AWMA) is one of the oldest continuously published, peer-reviewed, technical environmental journals in the world. First published in 1951 under the name Air Repair, J&AWMA is intended to serve those occupationally involved in air pollution control and waste management through the publication of timely and reliable information.
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