在混合催化剂床的CZA与γ -AlO比例变化的情况下，由富CO合成气直接合成二甲醚的动力学。

Kinetics of the direct DME synthesis from CO rich syngas under variation of the CZA-to-γ-AlO ratio of a mixed catalyst bed.

作者信息

Delgado Otalvaro Nirvana, Sogne Gerardo, Herrera Delgado Karla, Wild Stefan, Pitter Stephan, Sauer Jörg

机构信息

Karlsruher Institute of Technology (KIT) Hermann-von-Helmholtz-Platz 1 D-76344 Eggenstein-Leopoldshafen Germany

出版信息

RSC Adv. 2021 Jul 13;11(40):24556-24569. doi: 10.1039/d1ra03452a.

DOI:10.1039/d1ra03452a

PMID:35481015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9036900/

Abstract

The one-step synthesis of dimethyl ether over mechanical mixtures of Cu/ZnO/AlO (CZA) and γ-AlO was studied in a wide range of process conditions. Experiments were performed at an industrially relevant pressure of 50 bar varying the carbon oxide ratio in the feed (CO in CO from 20 to 80%), temperature (503-533 K), space-time (240-400 kg s m ), and the CZA-to-γ-AlO weight ratio (from 1 to 5). Factors favoring the DME production in the investigated range of conditions are an elevated temperature, a low CO content in the feed, and a CZA-to-γ-AlO weight ratio of 2. A lumped kinetic model was parameterized to fit the experimental data, resulting in one of the predictive models with the broadest range of validity in the open literature for the CZA/γ-AlO system.

摘要

在广泛的工艺条件下，研究了在Cu/ZnO/AlO（CZA）和γ-AlO机械混合物上一步合成二甲醚的过程。实验在50巴的工业相关压力下进行，改变进料中的碳氧化物比例（CO在CO₂中的比例从20%到80%）、温度（503 - 533 K）、时空（240 - 400 kg s m⁻³）以及CZA与γ-AlO的重量比（从1到5）。在所研究的条件范围内，有利于二甲醚生产的因素是升高的温度、进料中低的CO含量以及CZA与γ-AlO的重量比为2。对集总动力学模型进行参数化以拟合实验数据，得到了公开文献中CZA/γ-AlO体系有效性范围最广的预测模型之一。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4094/9036900/44d053b0dd58/d1ra03452a-f1.jpg

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在混合催化剂床的CZA与γ -AlO比例变化的情况下，由富CO合成气直接合成二甲醚的动力学。

Kinetics of the direct DME synthesis from CO rich syngas under variation of the CZA-to-γ-AlO ratio of a mixed catalyst bed.

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