Rich H2 catalytic oxidation as a novel methodology for the evaluation of mass transport properties of 3D printed catalyst supports

Federico Sascha Franchi; Matteo Ambrosetti; Riccardo Balzarotti; Mauro Bracconi; Gianpiero Groppi; Enrico Tronconi

doi:https://doi.org/10.1016/j.cattod.2021.04.004

doi.org/10.1016/j.cattod.2021.04.004

Rich H2 catalytic oxidation as a novel methodology for the evaluation of mass transport properties of 3D printed catalyst supports

Federico Sascha Franchi

1

,

Matteo Ambrosetti

13

,

..., Enrico Tronconi

63

Catalysis Today5.30

Volume: 383, Pages: 123 - 132

Published: Jan 1, 2022

Abstract

In this work, we propose a novel methodology for the evaluation of the external mass transfer properties of 3D printed catalyst supports. This protocol relies on the use of a lab scale SLA 3D printer with a resin characterized by a high heat deflection temperature (HDT) for the manufacturing of samples at a lower price and with higher accuracy than equivalent metallic 3D printed structures. Periodic open cellular structure (POCS) samples with...

Paper Fields

Paper Details

Title

Rich H2 catalytic oxidation as a novel methodology for the evaluation of mass transport properties of 3D printed catalyst supports

DOI

doi.org/10.1016/j.cattod.2021.04.004

Published Date

Jan 1, 2022

Journal

Catalysis Today

Volume

383

Pages

123 - 132

Citation AnalysisPro

You’ll need to upgrade your plan to Pro

Looking to understand the true influence of a researcher’s work across journals & affiliations?

Scinapse’s Top 10 Citation Journals & Affiliations graph reveals the quality and authenticity of citations received by a paper.
Discover whether citations have been inflated due to self-citations, or if citations include institutional bias.

Learn more

Notes

History