Kenit Acharya, Ahmed S Al-Fatesh, Anis H Fakeeha, Ahmed E Abasaeed, Othman Alothman, Hammad Ahmad Jan, Naif Alarifi, Jehad K Abu-Dahrieh, Rawesh Kumar
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引用次数: 0
摘要
在全球变暖的背景下,甲烷干转化(DRM)因其能够同时消除两种温室气体(即 CH4 和 CO2)并产生合成气而备受关注。在全球变暖的背景下,甲烷干重整(DRM)由于能够同时消耗两种温室气体(即甲烷和二氧化碳)并产生合成气而备受关注。本文研究了用于 DRM 的锶促进镧锆支撑镍催化剂,并通过 X 射线衍射、表面积和孔隙率、傅立叶变换红外光谱(FTIR-RAMAN)和温度编程实验对其进行了表征。Ni/LaZr 催化剂含有甲酸盐和氧碳酸盐类 CO2 反应物,而锶促进的催化剂则含有额外的离子 CO3 2 物种。目前 2% 锶促进的 Ni/LaZr 催化剂体系的活性位点来自三种类型的氧化镍:易还原型、中度相互作用型和强相互作用型。在当前系统的 DRM 反应过程中,二氧化碳是一种比氧气更好的氧化剂,可以去除碳沉积物。此外,在 DRM 反应过程中,催化剂在氧化性气体(CO2)和还原性气体(H2)中都具有较高的还原性。要在 Ni2Sr/LaZr 催化剂上运行 420 分钟内达到约 60% 的最佳氢气产率,就必须在活性位点 Ni 和与 CO2 反应的表面物种数量之间取得平衡。
Role of Active Site and CO2-Interacting Surface Species in Dry Reforming of Methane over Strontium Promoted Ni Catalyst Supported by Lanthanum-Zirconia.
In the context of global warming, the dry reforming of methane (DRM) has gained significant attention due to its ability to simultaneously deplete two greenhouse gases, i. e. CH4 and CO2, and generate syngas. Herein, strontium-promoted Lanthanum-zirconia supported Ni catalysts are investigated for DRM and characterized by X-ray diffraction, surface area and porosity, FTIR-RAMAN spectroscopy, and temperature-programmed experiments. The Ni/LaZr catalyst contains formate and oxycarbonate-like CO2-interacting species, while strontium-promoted catalysts have additional ionic CO32- species. The current catalyst system of 2 % strontium-promoted Ni/LaZr has active sites derived from three types of NiO: easily reducible, moderately interacted, and strongly interacted. During the DRM reaction over the current system, CO2 is a better oxidant than O2 for removing carbon deposits. Additionally, the catalysts attain higher reducibility under oxidizing gas (CO2) and reducing gas (H2) during the DRM reaction. For optimal hydrogen yield of approximately 60 % within 420 minutes of operation over Ni2Sr/LaZr catalyst, a balance between the population of active site Ni and CO2-interacting surface species is necessary.
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