期刊
CHEMICAL ENGINEERING JOURNAL
卷 349, 期 -, 页码 694-707出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2018.05.119
关键词
Carbon capture and utilization; CO2 methanation; Heat exchanger reactor; Coated catalyst; Reactor modeling; Hydrotalcite
资金
- Business Finland
- SOLETAIR project
This study presents the kinetic modeling of CO2 methanation reaction using 15 wt% Ni/Mg/Al hydrotalcite coated catalyst. Power law and Langmuir-Hinshelwood-Hougens-Watson (LHHW) models were used to represent the kinetics of CO2 methanation. LHHW model displayed better representation of the kinetics and was chosen for modeling the CO2 methanation reaction in a plate type heat exchanger reactor. Comparison between experiments, 1D model, and 2D model proved the reliability of using internally coated tubular reactor for kinetic modeling of coated catalyst. This work also performed modeling of a plate type heat exchanger reactor with catalytically coated corrugated plates for CO2 methanation. Heat exchanger reactors with coated catalyst allow controlling the reaction temperature and thus, avoiding temperature runaway owing to the highly exothermic CO2 methanation reaction. The corrugated pattern created by the opposing corrugated plates of the plate heat exchanger reactor proved to be excellent for distributing the flow homogeneously inside each reaction channel and the entire reactor. In this reactor, 92% CO2 conversion was achieved at GHSV = 4400 h(-1), 573 K and 5 bar. The good performance of this reactor was due to the high activity displayed by Ni-hydrotalcite coated catalyst, homogeneous flow distribution and high surface area of the reactor. Thus, plate type heat exchanger reactor with catalytically coated corrugated plates proved to be suitable alternative to plate heat exchanger reactors with microchannel plates.
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