Kinetics of catalytic oxidation of carbon monoxide over CuMnAgOx catalyst

Materials Discovery Pub Date : 2017-06-01 DOI:10.1016/j.md.2017.09.001

Subhashish Dey , Ganesh Chandra Dhal , Devendra Mohan , Ram Prasad

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引用次数: 41

Abstract

The CuMnAgOx catalyst was prepared by the deposition-precipitation method and followed by calcination at 300 °C, which showed excellent activity and stability for carbon monoxide (CO) oxidation at low temperature. This paper describes the kinetics of catalytic air oxidation of CO over the CuMnAgOx catalyst and their kinetics data were collected in a plug flow tubular reactor. The data were collected under the following reaction conditions: 100 mg catalyst, 2.5% CO in air, total flow rate maintained 60 ml/min and temperature range 25–30 °C. The CO oxidation followed in a different reaction mechanism at a broad range of experimental temperature. A better tool for measuring the performance of CuMnAgOx catalyst for CO oxidation is the activation energy for the process and it’s used for the modeling and design of the catalytic converter. The data were fitted into the power law rate equation. The frequency factor and activation energy were found to be 2.7790 × 10⁵ (g mol)/(gcat h) and 16.977 kJ/g mol, respectively.

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CuMnAgOx催化剂上一氧化碳的催化氧化动力学

采用沉积沉淀法制备了CuMnAgOx催化剂，然后在300°C下煅烧，该催化剂在低温下对一氧化碳（CO）氧化表现出优异的活性和稳定性。本文描述了CuMnAgOx催化剂上CO的催化空气氧化动力学，并在塞流管式反应器中收集了动力学数据。数据是在以下反应条件下收集的：100 mg催化剂，空气中2.5%的CO，总流速保持60 ml/min，温度范围为25-30°C。在较宽的实验温度范围内，CO氧化以不同的反应机理进行。测量CuMnAgOx催化剂CO氧化性能的一个更好的工具是该过程的活化能，它用于催化转化器的建模和设计。数据被拟合到幂律速率方程中。频率因子和活化能分别为2.7790×105（g/mol）/（gcat h）和16.977kJ/g/mol。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Discovery

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