VOC and CO Removals by Perovskite Type Nanocatalysts Supported on Commercial Substrates

S. Hosseinpour, Mahsa Bahramgour, S. R. Hosseini, Y. Yildirim, A. Niaei
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Abstract

In this research, it was tried to choose a kind of perovskite catalyst with optimized formulation La0.8Sr0.2Co0.66Fe0.34O3 to remove air pollutants. This perovskite catalyst stabilized on the various supports such as alumina and ZSM-5 with the sol-gel synthesis technique and ceramic monolith by dip-coating method. Four different catalysts by variable weight percentage including PE-Al 10%, PE-Al 20%, PE-Al 30%, and PE-Al 40% were prepared by sol-gel synthesis technique. In this work, the XRD technique was used to confirm the formation of perovskite catalysts’ crystalline phases on the supports. As a result, XRD patterns revealed the formation of the perovskite phase onto the alumina and zeolite supports. Activity tests of these four catalysts were examined in the catalytic oxidation of Toluene and CO using an experimental setup consisting of a tubular flow reactor at the temperature 280-400°C and 100-400°C for the toluene and CO removal systems, respectively. According to the results of the catalysts’ activity test, the alumina supported with 40% w/w perovskite catalyst showed the best performance, and its activity was similar to the activity of the bulk catalyst (over 95% conversion of toluene at about 290°C). For the coated catalysts on a ceramic monolith, the complete removal of carbon monoxide at 50°C was lower than the powdered form. Results from the activity test in a toluene removal system that show coating of the bulk and supported catalysts on ceramic monolith; have an essential impact on the activity test of these catalysts. 
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钙钛矿型纳米催化剂在商业基质上对VOC和CO的去除
本研究尝试选择一种配方优化的钙钛矿催化剂La0.8Sr0.2Co0.66Fe0.34O3去除空气污染物。该钙钛矿催化剂采用溶胶-凝胶合成技术和浸渍法在氧化铝和ZSM-5等多种载体上稳定。采用溶胶-凝胶合成技术制备了PE-Al 10%、PE-Al 20%、PE-Al 30%和PE-Al 40%四种不同重量百分比的催化剂。本文采用XRD技术对钙钛矿催化剂在载体上的结晶相形成进行了验证。结果,XRD图谱揭示了钙钛矿相在氧化铝和沸石载体上的形成。采用管流式反应器,在280 ~ 400℃和100 ~ 400℃的温度条件下对甲苯和一氧化碳的催化氧化系统进行了活性测试。根据催化剂的活性测试结果,负载40% w/w钙钛矿催化剂的氧化铝表现出最好的性能,其活性与本体催化剂的活性相近(在290℃左右甲苯转化率超过95%)。对于陶瓷整体上的涂层催化剂,在50℃下一氧化碳的完全脱除率低于粉末形式。甲苯去除系统的活性测试结果表明,载体催化剂在陶瓷整体上有涂层;对这些催化剂的活性测试有重要的影响。
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