Sean G. Mueller scite author profile

Sean G. Mueller

5Publications

45Citation Statements Received

179Citation Statements Given

How they've been cited

How they cite others

141

174

Affiliations

Celanese (United States), Washington University in St. Louis, University of Kansas

Publications

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Gas Holdup in Gas−Liquid Stirred Tanks

Mueller

Duduković

2010

Ind. Eng. Chem. Res.

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A single-point optical probe is developed that can accurately obtain local gas holdup in a gas−liquid stirred tank across a wide range of operating pressures, temperatures, and fluids. It is found that the probe orientation to the flow in a stirred tank can cause underestimations in gas holdup if only a single probe orientation is used. The probe is also able to capture the complex flow pattern in the vessel. This allows improved understanding of optical probes and stirred tanks and generation of data at elevated pressure and temperature conditions needed for development of new fundamental models.

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Using a Fiber-Optic Probe for the Measurement of Volumetric Expansion of Liquids

Mueller

Werber

Al‐Dahhan

et al. 2007

Ind. Eng. Chem. Res.

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A fiber-optic probe is developed for the fast, in-situ measurement of volumetric expansion of multiphase and multicomponent systems. An experiment with the binary mixtures of CO 2 -toluene and CO 2 -ethanol was conducted to demonstrate the usefulness of the fiber-optic probe in accurately tracking the isothermal volumetric expansion as a function of pressure. In the 1-L autoclave that has been used, the probe was shown to detect the liquid level height within a precision of 0.35% of the total height of the vessel. The results for the volumetric expansion of toluene and ethanol with CO 2 correlate well with those found in the literature. The probe itself can be used up to pressures of 140 barg and temperatures of 120°C.

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Impregnation of KOAc on PdAu/SiO₂ causes Pd-acetate formation and metal restructuring

et al. 2023

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Segregation of Pt and Re During CO2 Reforming of CH4

et al. 2005

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Pt-Re supported on Ce 0.52 Zr 0.48 O 2 was studied for the carbon dioxide reforming of methane at 800°C. Diffuse reflectance fourier transform infrared spectroscopy and temperature programmed reduction studies suggest that Pt and Re segregation occurs during the reaction. The segregation results in an increase in the Pt sites available for CH 4 decomposition and results in the bimetallic catalyst exhibiting an increase in the conversion of methane with time on stream. After 20 h of reaction, the CH 4 conversion observed for the bimetallic catalyst was the same as the CH 4 conversion observed for the monometallic catalyst.

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H-Adaptive Simulation of Hypersonic Flows in Thermochemical Nonequilibrium

Windisch

Reinartz

Mueller

2012

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Sean G. Mueller

Gas Holdup in Gas−Liquid Stirred Tanks

Using a Fiber-Optic Probe for the Measurement of Volumetric Expansion of Liquids

Impregnation of KOAc on PdAu/SiO₂ causes Pd-acetate formation and metal restructuring

Segregation of Pt and Re During CO2 Reforming of CH4

H-Adaptive Simulation of Hypersonic Flows in Thermochemical Nonequilibrium

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Sean G. Mueller

Gas Holdup in Gas−Liquid Stirred Tanks

Using a Fiber-Optic Probe for the Measurement of Volumetric Expansion of Liquids

Impregnation of KOAc on PdAu/SiO2 causes Pd-acetate formation and metal restructuring

Segregation of Pt and Re During CO2 Reforming of CH4

H-Adaptive Simulation of Hypersonic Flows in Thermochemical Nonequilibrium

Contact Info

Product

Resources

About

Impregnation of KOAc on PdAu/SiO₂ causes Pd-acetate formation and metal restructuring