摘要
挥发性有机气体排放是当前大气污染控制的重要难点。低温吸附法依托温度对分子扩散与表面能的耦合作用,在微观层面显现优良的选择性与可逆性,已逐渐成为资源回收与污染控制的研究重点。本文围绕低温吸附路径,系统阐述吸附材料的性能响应机制、运行工况的动态调节方式、装置结构的集成设计方案和回收系统的运行控制逻辑,并在三类典型场景中展开应用评估,为后续技术优化提供了数据支撑与工程借鉴。
The emission of volatile organic gases is an important difficulty in the current control of air pollution.Low-temperature adsorption method,relying on the coupling effect of temperature on molecular diffusion and surface energy,shows excellent selectivity and reversibility at the microscopic level and has gradually become a research focus in resource recovery and pollution control.In the context of low-temperature adsorption pathways,the performance response mechanism of adsorption materials,dynamic adjustment methods of operating conditions,integrated design schemes of device structures,and operational control logic of recovery systems are systematically elaborated.Application evaluations are conducted in three typical scenarios,providing data support and engineering reference for subsequent technical optimization.
作者
徐骁
XU Xiao(Nanjing Yinuoji Medical Technology Co.,Ltd.,Nanjing,Jiangsu Province,210019 China)
出处
《科技资讯》
2025年第24期126-128,共3页
Science & Technology Information
关键词
低温吸附
挥发性有机气体
分离回收
工况调节
系统集成
Low-temperature adsorption
Volatile organic gas
Separation and recycling
Operation condition ad justment
System integration
