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首页> 外文期刊>Chemical engineering journal >The interactive roles of space velocity and particle size in a microporous carbon bed system in controlling adsorptive removal of gaseous benzene under ambient conditions
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The interactive roles of space velocity and particle size in a microporous carbon bed system in controlling adsorptive removal of gaseous benzene under ambient conditions

机译:微孔碳床系统中空速和粒度在环境条件下控制气态苯的吸附去除的互动作用

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The performance of an air filtration system is commonly evaluated using laboratory-scale studies under optimal, but unrealistic, experimental conditions (e.g., high pollutant loading, slow feeding rate, and fine particle size). It is, therefore, important to assess the role of key variables affecting performance from a practical perspective. To this end, a series of dynamic adsorption tests were carried out to evaluate the uptake behavior of gaseous benzene (at 1 Pa) by a filter bed system made of a commercial activated carbon (AC) in relation to two key variables: particle-size range (granular AC [GAC]: 0.212 to 5 mm vs. powdered AC [PAC]: 0.6 to 2.36 mm) and space velocity (flow rates: 100 to 3000 mL min(-1)). The effects of these two key variables on capturing of benzene were assessed in terms of key performance metrics (e.g., breakthrough volume [BTV]: L g(-1) atm(-1), partition coefficient [PC]: mol kg(-1) Pa-1, and adsorption capacity [Q]: mg g(-1)). It was verified that GAC outperformed PAC at a low flow rate (100 to 500 mL min-1), in particular in the 5% BTV region. In contrast, PAC performed better at a 100 L BTV (PC: 0.49 to 0.98 mol kg(-1) Pa-1) under high flow conditions (1000 to 3000 mL min(-1)). The results of isotherm/kinetic analysis revealed the dominant role of the surface/pore diffusion in the multilayer adsorption of benzene onto GAC adsorbent (relative to PAC adsorbent). With the increases in space velocity, the flow patterns crossed from a laminar to transitional mode to promote advection transport (relative to diffusion transport) of benzene molecules through the GAC-bed filter (relative to the PAC-bed filter). These findings are expected to help open new paths for optimization of air filtration system under real environmental conditions, particulary with respect to space velocity and particle diameter (of adsorbent).
机译:通常在最佳但不现实的实验条件下使用实验室规模研究(例如,高污染物负载,慢喂养率和细粒度)来评估空气过滤系统的性能。因此,评估从实际角度来评估影响性能的关键变量的作用是很重要的。为此,进行了一系列动态吸附试验,以评估由商业活性炭(AC)的过滤床系统的气相苯(1Pa)的摄取行为:粒度范围(粒状AC [GAC]:0.212至5mm Vs.粉末AC [PAC]:0.6至2.36 mm)和空间速度(流速:100至3000mL min(-1))。在关键性能度量方面评估这两个关键变量对苯进行捕获的影响(例如,突破体积[BTV]:L G(-1)ATM(-1),分区系数[PC]:mol kg( - 1)PA-1和吸附容量[Q]:Mg G(-1))。验证了GAC以低流速(100至500mL min-1)的效果,特别是在5%BTV区域中。相反,PAC在高流量条件下在100L BTV(PC:0.49至0.98mol kg(-1)pa-1)下更好(1000至3000mL min(-1))。等温/动力学分析的结果揭示了表面/孔扩散在多层吸附到GAC吸附剂上的主要作用(相对于PAC吸附剂)。随着空间速度的增加,流动模式从层流向过渡模式,以通过GAC床过滤器(相对于PAC床过滤器)促进苯分子的平流运输(相对于扩散传递)。预计这些发现有助于开辟在真实环境条件下优化空气过滤系统的新路径,与空间速度和粒径(吸附剂)进行颗粒。

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