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  4. Reactor for in situ measurements of spatially resolved kinetic data in heterogeneous catalysis
 
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Reactor for in situ measurements of spatially resolved kinetic data in heterogeneous catalysis

Publikationstyp
Journal Article
Date Issued
2010-06-01
Sprache
English
Author(s)
Horn, Raimund  
Korup, Oliver  
Geske, Michael  
Zavyalova, Ulyana
Oprea, I.
Schlögl, Robert  
TORE-URI
https://hdl.handle.net/11420/46038
Journal
Review of scientific instruments  
Volume
81
Issue
6
Article Number
064102
Citation
Review of scientific instruments 81 (6): 064102 (2010)
Publisher DOI
10.1063/1.3428727
Publisher
AIP Publishing
The present work describes a reactor that allows in situ measurements of spatially resolved kinetic data in heterogeneous catalysis. The reactor design allows measurements up to temperatures of 1300 °C and 45 bar pressure, i.e., conditions of industrial relevance. The reactor involves reactants flowing through a solid catalyst bed containing a sampling capillary with a side sampling orifice through which a small fraction of the reacting fluid (gas or liquid) is transferred into an analytical device (e.g., mass spectrometer, gas chromatograph, high pressure liquid chromatograph) for quantitative analysis. The sampling capillary can be moved with μm resolution in or against flow direction to measure species profiles through the catalyst bed. Rotation of the sampling capillary allows averaging over several scan lines. The position of the sampling orifice is such that the capillary channel through the catalyst bed remains always occupied by the capillary preventing flow disturbance and fluid bypassing. The second function of the sampling capillary is to provide a well which can accommodate temperature probes such as a thermocouple or a pyrometer fiber. If a thermocouple is inserted in the sampling capillary and aligned with the sampling orifice fluid temperature profiles can be measured. A pyrometer fiber can be used to measure the temperature profile of the solid catalyst bed. Spatial profile measurements are demonstrated for methane oxidation on Pt and methane oxidative coupling on Li/MgO, both catalysts supported on reticulated α−Al2O3 foam supports.
DDC Class
540: Chemistry
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