Robert Güttel
Zitiert von
Zitiert von
Reactors for Fischer‐Tropsch Synthesis
R Guettel, U Kunz, T Turek
Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2008
Comparison of different reactor types for low temperature Fischer–Tropsch synthesis: A simulation study
R Guettel, T Turek
Chemical Engineering Science 64 (5), 955-964, 2009
Water purification and microplastics removal using magnetic polyoxometalate‐supported ionic liquid phases (magPOM‐SILPs)
A Misra, C Zambrzycki, G Kloker, A Kotyrba, MH Anjass, I Franco Castillo, ...
Angewandte Chemie International Edition 59 (4), 1601-1605, 2020
Yolk‐Shell Gold Nanoparticles as Model Materials for Support‐Effect Studies in Heterogeneous Catalysis: Au, @C and Au, @ZrO2 for CO Oxidation as an Example
C Galeano, R Güttel, M Paul, P Arnal, AH Lu, F Schüth
Chemistry–A European Journal 17 (30), 8434-8439, 2011
High‐Temperature Stable, Iron‐Based Core–Shell Catalysts for Ammonia Decomposition
M Feyen, C Weidenthaler, R Güttel, K Schlichte, U Holle, AH Lu, F Schüth
Chemistry–A European Journal 17 (2), 598-605, 2011
Micro/macroporous system: MFI-type zeolite crystals with embedded macropores
AG Machoke, AM Beltrán, A Inayat, B Winter, T Weissenberger, N Kruse, ...
Adv. Mater 27 (6), 1066-1070, 2015
Fischer–Tropsch synthesis in milli-structured fixed-bed reactors: Experimental study and scale-up considerations
J Knochen, R Güttel, C Knobloch, T Turek
Chemical Engineering and Processing: Process Intensification 49 (9), 958-964, 2010
Ex-post size control of high-temperature-stable yolk–shell Au,@ ZrO 2 catalysts
R Güttel, M Paul, F Schüth
Chemical communications 46 (6), 895-897, 2010
Start-up time and load range for the methanation of carbon dioxide in a fixed-bed recycle reactor
S Matthischke, S Roensch, R Güttel
Industrial & Engineering Chemistry Research 57 (18), 6391-6400, 2018
Activity improvement of gold yolk–shell catalysts for CO oxidation by doping with TiO 2
R Güttel, M Paul, F Schüth
Catalysis Science & Technology 1 (1), 65-68, 2011
Challenges in polyoxometalate-mediated aerobic oxidation catalysis: catalyst development meets reactor design
M Lechner, R Güttel, C Streb
Dalton Transactions 45 (42), 16716-16726, 2016
Preparation and catalytic evaluation of cobalt-based monolithic and powder catalysts for Fischer− Tropsch synthesis
R Guettel, J Knochen, U Kunz, M Kassing, T Turek
Industrial & Engineering Chemistry Research 47 (17), 6589-6597, 2008
Assessment of micro-structured fixed-bed reactors for highly exothermic gas-phase reactions
R Guettel, T Turek
Chemical Engineering Science 65 (5), 1644-1654, 2010
Au,@ ZrO2 yolk–shell catalysts for CO oxidation: Study of particle size effect by ex-post size control of Au cores
R Güttel, M Paul, C Galeano, F Schüth
Journal of catalysis 289, 100-104, 2012
Study of unsteady‐state operation of methanation by modeling and simulation
R Güttel
Chemical Engineering & Technology 36 (10), 1675-1682, 2013
Unsteady-state methanation of carbon dioxide in a fixed-bed recycle reactor—Experimental results for transient flow rate ramps
S Matthischke, R Krüger, S Rönsch, R Güttel
Fuel processing technology 153, 87-93, 2016
Monolith loop reactor for hydrogenation of glucose
C Eisenbeis, R Guettel, U Kunz, T Turek
Catalysis Today 147, S342-S346, 2009
Influence of the microstructure of Gold− Zirconia yolk− shell catalysts on the CO oxidation activity
AD Pandey, R Güttel, M Leoni, F Schüth, C Weidenthaler
The Journal of Physical Chemistry C 114 (45), 19386-19394, 2010
Nanostructured encapsulated catalysts for combination of Fischer–Tropsch synthesis and hydroprocessing
N Kruse, AG Machoke, W Schwieger, R Güttel
ChemCatChem 7 (6), 1018-1022, 2015
Holdup and pressure drop in micro packed‐bed reactors for Fischer‐Tropsch synthesis
C Knobloch, R Güttel, T Turek
Chemie Ingenieur Technik 85 (4), 455-460, 2013
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20