Facilely Synthesized CeNi1-xCoxO3 Perovskite Catalyst for Combined Steam and CO2 Reforming of Methane

IF 2.6 4区综合性期刊 Q2 MULTIDISCIPLINARY SCIENCES

Arabian Journal for Science and Engineering Pub Date : 2024-11-13 DOI:10.1007/s13369-024-09764-2

Do Ba Long, Tri Nguyen, Hong Phuong Phan

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Abstract

Herein, a series of CeNi_1-xCo_xO₃ (x = 0.1, 0.3, 0.5, and 0.7) was prepared by a co-precipitation method for combined steam and CO₂ reforming of methane (CSCRM) reaction. The influence of incorporating Ni with Co species in the perovskite structure was elucidated by both the catalytic performance and physicochemical properties of as-prepared materials. Several modern techniques were utilized to study the catalysts’ properties, including XRD, EDS, SEM, HR-TEM, Nitrogen adsorption–desorption, H₂-TPR, CO₂-TPD, and Raman spectroscopy. As Co modification content increased, respective to x value in CeNi_1-xCo_xO₃ change from 0.1 to 0.5, calcined catalysts’ crystallite size of separated M₂O_x oxides gradually increased from 16.2 to 20.3 nm. Investigating the CO₂-TPD and H₂-TPR profiles showed that CO₂ adsorption ability of catalysts increased while reducibility decreased when x value increased from 0.1 to 0.5. Despite clearly change of physicochemical properties, the Co content in range of x = 0.1–0.5 did not have significant influence on the catalytic activity in CSCRM reaction. The properties of catalyst with higher Co content (x = 0.7) changed differently compared to catalysts with x = 0.1–0.5, which seemed positive (smaller crystallite sizes of calcined perovskite and reduced metallic phases of 12.9 nm and 12.8 nm, respectively; slightly larger specific surface area of 13.0 m²/g, higher hydrogen consumption in TPR analysis), but the catalytic activity of this catalyst slightly lower than other surveyed catalysts at a low temperature of 550 °C. Despite that, all studied catalysts showed quite similar catalytic performance at high temperature range, which was considered as favorable operation condition for the reaction. The study also revealed an excellent coke tolerance ability of perovskite-derived catalysts in the CSCRM. The as-prepared CeNi_0.5Co_0.5O₃ catalyst showed a comparable activity compared to other published results on other catalysts, with CH₄ and CO₂ conversions of 94.6% and 93.2%, respectively. The comparison with other studies also revealed a high CH₄ conversion rate of 6381 mL_CH4.g⁻¹.h⁻¹ and an excellent CO₂ conversion rate of 3269 mL_CO2.g⁻¹.h⁻¹ on CeNi_0.5Co_0.5O₃ in a high space velocity of 3 × 10⁵ mL.g⁻¹.h⁻¹.

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甲烷蒸汽- CO2复合重整催化剂CeNi1-xCoxO3的制备

本文采用共沉淀法制备了一系列CeNi1-xCoxO3 (x = 0.1, 0.3, 0.5, 0.7)，用于甲烷（CSCRM）蒸汽- CO2联合重整反应。通过制备的材料的催化性能和物理化学性质，阐明了在钙钛矿结构中加入Ni和Co的影响。采用XRD、EDS、SEM、HR-TEM、氮气吸附-解吸、H2-TPR、CO2-TPD、拉曼光谱等现代技术对催化剂的性能进行了研究。随着Co改性含量的增加，相对于CeNi1-xCoxO3中的x值从0.1变化到0.5，煅烧后分离的m2o氧化物的催化剂晶粒尺寸从16.2 nm逐渐增大到20.3 nm。对CO2- tpd和H2-TPR谱图的研究表明，当x值从0.1增加到0.5时，催化剂的CO2吸附能力增强，而还原性降低。在x = 0.1 ~ 0.5范围内Co含量对CSCRM反应的催化活性没有显著影响，但其理化性质有明显变化。高Co含量（x = 0.7）的催化剂的性能与x = 0.1 ~ 0.5的催化剂相比有不同的变化，表现出积极的影响(煅烧的钙钛矿晶粒尺寸变小，金属相减少，分别为12.9 nm和12.8 nm；比表面积略大，为13.0 m2/g， TPR分析中耗氢量较高)，但在550℃的低温下，该催化剂的催化活性略低于所调查的其他催化剂。尽管如此，所研究的催化剂在高温范围内表现出非常相似的催化性能，这被认为是反应的有利操作条件。该研究还揭示了钙钛矿衍生催化剂在CSCRM中具有优异的耐焦能力。制备的CeNi0.5Co0.5O3催化剂与其他已发表的催化剂相比具有相当的活性，CH4和CO2的转化率分别为94.6%和93.2%。与其他研究的比较还表明，在3 × 105 mL.g−1.h−1的高空速下，CeNi0.5Co0.5O3上CH4的转化率为6381 mLCH4.g−1.h−1，CH4的转化率为3269 mLCO2.g−1.h−1。

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来源期刊

Arabian Journal for Science and Engineering MULTIDISCIPLINARY SCIENCES-

CiteScore

5.70

自引率

3.40%

发文量

993

期刊介绍： King Fahd University of Petroleum & Minerals (KFUPM) partnered with Springer to publish the Arabian Journal for Science and Engineering (AJSE). AJSE, which has been published by KFUPM since 1975, is a recognized national, regional and international journal that provides a great opportunity for the dissemination of research advances from the Kingdom of Saudi Arabia, MENA and the world.