Digitalization in Catalysis and Reaction Engineering: Automatizing Work Flows

Autor/innen

  • Rinu Chacko Karlsruhe Institute of Technology image/svg+xml
  • Hendrik Gossler omegadot Software & Consulting GmbH
  • Johannes Riedel Karlsruhe Institute of Technology image/svg+xml
  • Stephan Andreas Schunk hte GmbH
  • Olaf Deutschmann Karlsruhe Institute of Technology image/svg+xml

DOI:

https://doi.org/10.52825/cordi.v1i.412

Schlagworte:

Reaction Engineering, Catalysis, Metadata, Research Data Management

Abstract

Digitalization and surrounding efforts fostered by the advent of Industry 4.0 have been a development topic in the fields of chemistry and chemical engineering for several years – so timing may be right to look back and to question what the impact of efforts made, and to judge the impact of workflows and technologies developed. First and foremost, the first two key principle of Industry 4.0, namely Interconnectivity and Information Transparency play the crucial role in the context of Digitalization as only a seamless flow of data based on standardized formats remains key to enabling Decentralized Decisions and Technical Assistance. Digitization and digital tools play a key role in the acceleration data transfer and development efforts, the automation and autonomation of technical equipment employed, and the digital transformation of “classical” chemical reaction engineering processes towards an ideal originally projected by the high-tech agenda of Industry 4.0.

In this presentation we will start our journey with fully integrated environments on a laboratory level where data are not only made available in data warehouses but can be used to drive feedback loops to autonomously drive experimental devices.

Downloads

Keine Nutzungsdaten vorhanden.

Literaturhinweise

M. Kirchmann, A. Haas, C. Hauber, S Vukojevic. PTQ Q4, 2015, 119-128.

H. Gossler, L. Maier, S. Angeli, S. Tischer, O. Deutschmann, PCCP, 2018, 20, 10857.

H. Gossler, J. Riedel, E. Daymo, R. Chacko, S. Angeli, O. Deutschmann, CIT, 2022, 94, 1798.

D. Linke, C. Wulf, M. Beller, T. Boenisch, O. Deutschmann, S. Hanf, N. Kockmann, R. Kraehnert, M. Oezaslan, S. Palkovits, S. Schimmler, S.A. Schunk, K. Wagemann. Chem-CatChem, 2021, 13, 3223.

R. Chacko, K. Keller, S. Tischer, A.B. Shirsath, P. Lott, S. Angeli, O. Deutschmann. J. Phys. Chem. C (2023), DOI: 10.1021/acs.jpcc.2c08179.

B. Kreitz, P. Lott, J. Bae, K. Blöndal, S. Angeli, Z.W. Ulissi, F. Studt, C.F. Goldsmith, O. Deutschmann. ACS Catal., 2022, 12, 11137.

Downloads

Veröffentlicht

2023-09-07

Zitationsvorschlag

Chacko, R., Gossler, H., Riedel, J., Schunk, S. A., & Deutschmann, O. (2023). Digitalization in Catalysis and Reaction Engineering: Automatizing Work Flows. Proceedings of the Conference on Research Data Infrastructure , 1. https://doi.org/10.52825/cordi.v1i.412

Konferenzband

Bd. 1 (2023): 1st Conference on Research Data Infrastructure (CoRDI) - Connecting Communities

Rubrik

Engineering Sciences

Lizenz

Copyright (c) 2023 Rinu Chacko, Hendrik Gossler, Johannes Riedel, Stephan Schunk, Olaf Deutschmann

Creative-Commons-Lizenz
Dieses Werk steht unter der Lizenz Creative Commons Namensnennung 4.0 International.
##plugins.generic.dates.received## 2023-04-26
##plugins.generic.dates.accepted## 2023-06-29
##plugins.generic.dates.published## 2023-09-07

Daten zur Förderung