Process Intensification through Adaptable Catalytic Reactors made by 3D Printing

Livrables

Delivery of Demonstrator for squalane production

This is a physical delivery that will be used to complete Deliverable 3.6.

Deposit the catalytic phase on the 3D printed support produced in WP1.

Manufacture of 3D printed reactor to be used in demonstrator unit

Production of a reactor to be used in the demonstrator for production of squalane and monomer based on the design provided by WP4.

Paving the future: Introduction of 3D printing in Chemical engineering

Results of questionnaires that will be distributed to students that will enroll in classes specially oriented to this topic.

Benchmark of 3D printed catalytic foams

Compare the performance of 3D printed catalysts and conventional catalysts.

"Workshop: ""Additive manufacturing for advanced catalytic reactor performance"""

Organization of a workshop that congregates actors in the chemical industries in Europe that can take up the knowledge generated in the project.

Booklet of recommendations for manufacturing catalysts supports and reactors by Additive Manufacturing

Monitoring of technology and status of 3D printing for the chemical industries (technical issues).

Web page of the project

Launch the public website of the project.

Final proof of concept: Production of 1 kg of liquid products

Use the demonstrator delivered in WP4 for final concept demonstration.

PRINTCR3DIT Flyer with initial results

Public dissemination tool on paper that will be distributed in different media.

"Ceremony to deliver the ""prize for best reactor"""

Deliver of the prize to the student(s) that provide the best rector for the contest that will be organized.

Publications

Pressure drop and heat transfer properties of cubic iso-reticular foams

Auteurs: Núria F. Bastos Rebelo, Kari Anne Andreassen, Luis I. Suarez Ríos, Juan C. Piquero Camblor, Hans-Jörg Zander, Carlos A. Grande
Publié dans: Chemical Engineering and Processing - Process Intensification, Numéro 127, 2018, Page(s) 36-42, ISSN 0255-2701
Éditeur: Elsevier BV
DOI: 10.1016/j.cep.2018.03.008

Process Intensification in Nitric Acid Plants by Catalytic Oxidation of Nitric Oxide

Auteurs: Carlos A. Grande, Kari Anne Andreassen, Jasmina H. Cavka, David Waller, Odd-Arne Lorentsen, Halvor Øien, Hans-Jörg Zander, Stephen Poulston, Sonia García, Deena Modeshia
Publié dans: Industrial & Engineering Chemistry Research, Numéro 57/31, 2018, Page(s) 10180-10186, ISSN 0888-5885
Éditeur: American Chemical Society
DOI: 10.1021/acs.iecr.8b01483

Process Intensification by 3D printing technologies applied to NO (to NO2) oxidation

Auteurs: Carlos Grande, Hans-Jörg Zander, David Waller, Luis Suarez-Rios, Juan C. Piquero Camblor
Publié dans: 2018
Éditeur: CHISA

Kinetic modeling of the catalytic hydrogenation of nitrile esters to amino esters

Auteurs: F. Lali, P. Stavárek, M. Ujčić, M. Laube, J.-F. Devaux, J.-L. Dubois
Publié dans: 2018
Éditeur: CHISA

PRINTCR3DIT EU project: Process Intensification through Adaptable Catalytic Reactors made by 3D Printing

Auteurs: Carlos A. Grande
Publié dans: 2018
Éditeur: EFCE

A CFD approach to study catalytic reactors filled with open cell foams

Auteurs: J. D. Araújo, D. Direito, M. A. Alves
Publié dans: 2018
Éditeur: CHISA

Modeling of NO Oxidation in a 3D-Printed Catalytic Foam Reactor

Auteurs: Hans-Jörg Zander, Carlos Grande, David Waller, Thomas Acher
Publié dans: 2018
Éditeur: ISCRE

Reaction kinetic study of triterpene hydrogenation using a heterogeneous catalyst

Auteurs: P. Stavárek, M. Ujčić, F. Lali, J. Magne
Publié dans: 2018
Éditeur: CHISA

ADDITIVE MANUFACTURING TO RESHAPECATALYTICREACTORS

Auteurs: Carlos A. Grande, Jasmina Cavka, David Waller, Odd-Arne Lorentsen
Publié dans: 2018
Éditeur: NKS

Printcr3dit - 3D printing in process industry - from design to industrial pilot

Auteurs: Carlos Grande
Publié dans: 2018
Éditeur: PROSIN

Novel shapes generated by additive manufacturing for reaction engineering

Auteurs: Joana A. Costa
Publié dans: 2018
Éditeur: U.Porto

Use of additive manufacturing in chemical engineering

Auteurs: Núria Filipa Bastos Rebelo
Publié dans: 2017
Éditeur: O. Porto

Additive manufacturing: haute couture for chemical industries

Auteurs: Carlos A. Grande, Jean-Luc Dubois, Juan C. Piquero Camblor, Ørnulv Vistad, Terje Didriksen, Richard Blom, Aud I. Spjelkavik, Duncan Akporiaye
Publié dans: online publication, 2015
Éditeur: SINTEF webpage / Researchgate platform
DOI: 10.13140/RG.2.1.1356.5520

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