Investigation of the competitive adsorption mechanism between typical volatile organic compounds (VOCs) and water vapor in waste gas emissions from the fermentation industry
文献类型: 外文期刊
第一作者: Yao, Xiaolong
作者: Yao, Xiaolong;Liang, Xinyue;Shi, Yue;Zhou, Jingya;Yao, Xiaolong;Liang, Xinyue;Zhou, Jingya;Shi, Yue;Bu, Qingwei;Gong, Wenwen
作者机构:
关键词: Water vapor; adsorption; volatile organic compounds; activated carbon
期刊名称:SEPARATION SCIENCE AND TECHNOLOGY ( 影响因子:2.3; 五年影响因子:2.3 )
ISSN: 0149-6395
年卷期: 2025 年 60 卷 3-5 期
页码:
收录情况: SCI
摘要: The fermentation waste gas, characterized by high humidity and diverse volatile organic compounds (VOCs), poses challenges for adsorption in activated carbon devices. In this study, starch-based activated carbon was used as an adsorbent, targeting typical VOCs from fermentation industries-methyl mercaptan, toluene, and n-hexane. The adsorption behavior of water vapor and VOCs on the carbon interface was analyzed through adsorption experiments, structure characterization, and molecular simulations. Results showed that at 70% RH, the adsorption capacities of toluene and n-hexane experienced a reduction of 42.15% and 59.24% respectively compared to their respective capacities without water vapor at the breakthrough moment, while methyl mercaptan's capacity increased by 32.29% due to dissolution in condensed water within micropores. Water displaced all three VOCs during multicomponent adsorption. Reducing surface carboxyl groups, pyrrolic-N, and pyridinic-N enhances selective adsorption of VOCs. Among the VOCs, toluene shows the strongest interaction with activated carbon, followed by n-hexane and then methyl mercaptan. However, a water film under high humidity hinders the adsorption of n-hexane and toluene, reducing selectivity. These research findings will contribute to a comprehensive understanding of the mechanisms underlying the absorption of VOCs in high humidity environments by activated carbon.
分类号:
- 相关文献
作者其他论文 更多>>
-
Analysis of the steady-state concentrations of reactive species and their role in contaminant degradation by the iron-biochar/persulfate advanced oxidation process: Comparison of probe compound and quenching agent methods
作者:Meng, Xukun;Peng, Guilong;Yan, Yuting;Wang, Xiao;Zhu, Jiangwei;Belver, Carolina;Gong, Wenwen;Blaney, Lee;Peng, Guilong
关键词:Reactive species; Persulfate; Steady-state concentration; Iron-biochar; Advanced oxidation processes
-
A ratiometric fluorescent probe for the determination of quinolone antibiotics in milk based on N and S co-doped carbon quantum dots
作者:Wang, Fang;Li, Xiaoyun;Zhang, Yuchen;Li, Hui;Jiang, Shanxue;Li, Dandan;Yao, Zhiliang;Wang, Fang;Li, Xiaoyun;Zhang, Yuchen;Li, Hui;Jiang, Shanxue;Li, Dandan;Yao, Zhiliang;Wang, Fang;Li, Xiaoyun;Zhang, Yuchen;Li, Hui;Jiang, Shanxue;Li, Dandan;Yao, Zhiliang;Han, Jiajun;Gong, Wenwen
关键词:Carbon quantum dot; Ratiometric fluorescence probe; Moxifloxacin; Gatifloxacin; Ofloxacin; Milk
-
Highly Efficient Removal of Organic Pollutants with HCO3--Enhanced Ru(III)/NaClO Process
作者:Zhang, Yuhan;Peng, Guilong;Yan, Yuting;Meng, Xukun;Zhang, Yuhan;Peng, Guilong;Gong, Wenwen
关键词:advanced oxidation processes; sodium bicarbonate; NaClO; Ru(III); Ru(V)=O
-
Application of carbon quantum dots as fluorescent probes in the detection of antibiotics and heavy metals
作者:Wang, Fang;Zhang, Yuchen;Li, Hui;Jiang, Shanxue;Li, Dandan;Yao, Zhiliang;Wang, Fang;Zhang, Yuchen;Li, Hui;Jiang, Shanxue;Li, Dandan;Yao, Zhiliang;Gong, Wenwen;Han, Jiajun
关键词:Antibiotics; Heavy metals; Carbon quantum dots; Fluorescence quenching; Fluorescence enhancement
-
Effect of Multiyear Biodegradable Plastic Mulch on Soil Microbial Community, Assembly, and Functioning
作者:Liu, Xiaowei;Wen, Zongyu;Wen, Zongyu;Dong, Wentao;Ren, Huiqing;Liang, Gang;Gong, Wenwen;Zhou, Wei
关键词:biodegradable plastics; soil microorganisms; microbial diversity; ecological functions; nutrient cycling
-
A high-quality chromosome-level genome assembly for the agricultural pest Mythimna separata
作者:Zhang, Lei;Yesaya, Alexander;Li, Zaiyuan;Liang, Xinyue;Xiao, Yutao
关键词:
-
Mechanistic insights into peracetic acid activation by iron-biochar composites prepared at low and high temperature for enhanced contaminant degradation: Selective reactive species generation
作者:Peng, Guilong;Yan, Yuting;Meng, Xukun;Yan, Yuting;Gong, Wenwen;Qi, Chengdu;Chen, Junhua;Blaney, Lee
关键词:Peracetic acid; Iron-biochar; Acetaminophen; Reactive species; Advanced oxidation
