Stacked wire-mesh monoliths for VOCs combustion: Effect of the mesh-opening in the catalytic performance

Stacked wire-mesh monoliths for VOCs combustion: Effect of the mesh-opening in the catalytic performance. Sanz, O., Banús, E., Goya, A., Larumbe, H., Delgado, J., Monzón, A., & Montes, M. Catalysis Today, 296:76-83, 2017. cited By 16

Paper doi abstract bibtex

Structured reactors based on low cost metallic wire-mesh substrates of highly enhanced transport properties can be an interesting alternative to parallel channel monolithic reactors. In this work stacked wire-mesh monoliths were studied for volatile organic compounds elimination. Monoliths of different mesh-opening were homogeneously and adherently dip-coated with Pt/Manganese Octahedral Molecular Sieve (OMS-2) bifunctional catalyst. The catalytic activity was tested in toluene and methanol complete oxidation reactions. Catalytic activity increases using stacked wire-mesh monoliths instead of parallel channel monoliths and decreases when increasing the wire-mesh opening, showing the importance of the mass-transfer phenomena (contact between the gas phase and the solid catalyst). © 2017 Elsevier B.V.

@ARTICLE{Sanz201776,
author={Sanz, O. and Banús, E.D. and Goya, A. and Larumbe, H. and Delgado, J.J. and Monzón, A. and Montes, M.},
title={Stacked wire-mesh monoliths for VOCs combustion: Effect of the mesh-opening in the catalytic performance},
journal={Catalysis Today},
year={2017},
volume={296},
pages={76-83},
doi={10.1016/j.cattod.2017.05.054},
note={cited By 16},
url={https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019570869&doi=10.1016%2fj.cattod.2017.05.054&partnerID=40&md5=07d24229f798ab35d8e2fa0a16544104},
abstract={Structured reactors based on low cost metallic wire-mesh substrates of highly enhanced transport properties can be an interesting alternative to parallel channel monolithic reactors. In this work stacked wire-mesh monoliths were studied for volatile organic compounds elimination. Monoliths of different mesh-opening were homogeneously and adherently dip-coated with Pt/Manganese Octahedral Molecular Sieve (OMS-2) bifunctional catalyst. The catalytic activity was tested in toluene and methanol complete oxidation reactions. Catalytic activity increases using stacked wire-mesh monoliths instead of parallel channel monoliths and decreases when increasing the wire-mesh opening, showing the importance of the mass-transfer phenomena (contact between the gas phase and the solid catalyst). © 2017 Elsevier B.V.},
keywords={Catalysts;  Catalytic oxidation;  Mass transfer;  Mesh generation;  Molecular sieves;  Platinum;  Volatile organic compounds;  Wire, Bi-functional catalysts;  Catalytic performance;  Mass transfer phenomena;  Mesh-opening;  Octahedral molecular sieves;  Structured reactors;  VOCs abatement;  Wire meshes, Catalyst activity},
document_type={Article},
source={Scopus},
}

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