Ewelina Franczyk scite author profile

Ewelina Franczyk

3Publications

5Citation Statements Received

10Citation Statements Given

How they've been cited

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118

Affiliations

New Chemical Syntheses Institute, Łukasiewicz Research Network

Publications

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Influence of Steam Reforming Catalyst Geometry on the Performance of Tubular Reformer – Simulation Calculations

Franczyk¹,

Gołębiowski²,

Borowiecki³

et al. 2015

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A proper selection of steam reforming catalyst geometry has a direct effect on the efficiency and economy of hydrogen production from natural gas and is a very important technological and engineering issue in terms of process optimisation. This paper determines the influence of widely used seven-hole grain diameter (ranging from 11 to 21 mm), h/d (height/diameter) ratio of catalyst grain and S h /S t (hole surface/total cylinder surface in cross-section) ratio (ranging from 0.13 to 0.37) on the gas load of catalyst bed, gas flow resistance, maximum wall temperature and the risk of catalyst coking. Calculations were based on the one-dimensional pseudo-homogeneous model of a steam reforming tubular reactor, with catalyst parameters derived from our investigations. The process analysis shows that it is advantageous, along the whole reformer tube length, to apply catalyst forms of h/d = 1 ratio, relatively large dimensions, possibly high bed porosity and S h /S t ≈ 0.30-0.37 ratio. It enables a considerable process intensification and the processing of more natural gas at the same flow resistance, despite lower bed activity, without catalyst coking risk. Alternatively, plant pressure drop can be reduced maintaining the same gas load, which translates directly into diminishing the operating costs as a result of lowering power consumption for gas compression.

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The effect of La2O3 and CeO2 modifiers on properties of Ni–Al catalysts for LNG prereforming

Bicki

Antoniak‐Jurak

Michalska

et al. 2021

International Journal of Hydrogen Energy

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WGS reaction empirical kinetics over novel potassium promoted ZnAlLa mixed oxides catalyst

Antoniak‐Jurak

Kowalik

Michalska

et al. 2020

Chemical Engineering Research and Design

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