A publication on in-situ characterization techniques for reaction kinetics, published in 2015.
Nikolaos E. Tsakoumis, Andrew P.E. York, De Chen, Magnus Rønning, ’Catalyst characterization techniques and reaction cells operating at realistic conditions: towards aquisition of kinetically relevant information’, Catalysis, Science and Technology 5 (2015) 4859–4883.
- Download the abstract of the publication: In-situ spectropscopy - CatalSciTechnol 2015-5-4859 - Downloaded 2167 times
An extensive review paper on non-steady state methods for the determination of intrinsic reaction kinetics has been composed in a cooperation of five academic members of the Eurokin consortium in the course of 2007.
A review paper on dynamic methods has been published in 2008:
Rob J. Berger, Freek Kapteijn, Jacob A. Moulijn, Guy B. Marin, Juray De Wilde, Maria Olea, De Chen, Anders Holmen, Luca Lietti, Enrico Tronconi, Yves Schuurman ‘Dynamic methods for catalytic kinetics’, Appl. Catal. A: General 342 (2008) 3–28.
This paper reviews different transient methods amenable for determination of reaction kinetics. Transient methods allow extracting more and better kinetic information from fewer experiments compared to conventional steady-state experiments. The present day availability of experimental and analysis equipment and of more easily applicable numerical tools justifies a reappreciation of transient kinetic analysis techniques.
Download the Abstract: [download id=”39″An extensive review paper on non-steady state methods for the determination of intrinsic reaction kinetics has been composed in a cooperation of five academic members of the Eurokin consortium in the course of 2007.
A review paper on dynamic methods has been published in 2008:
Rob J. Berger, Freek Kapteijn, Jacob A. Moulijn, Guy B. Marin, Juray De Wilde, Maria Olea, De Chen, Anders Holmen, Luca Lietti, Enrico Tronconi, Yves Schuurman ‘Dynamic methods for catalytic kinetics’, Appl. Catal. A: General 342 (2008) 3–28.
This paper reviews different transient methods amenable for determination of reaction kinetics. Transient methods allow extracting more and better kinetic information from fewer experiments compared to conventional steady-state experiments. The present day availability of experimental and analysis equipment and of more easily applicable numerical tools justifies a reappreciation of transient kinetic analysis techniques.
Download the Abstract: [download id=”39″
