Peer-Reviewed Publications Within the Framework of DFG Priority Program 1740


46. Weiner., A.; Bothe, D.: Advanced subgrid-scale modeling for convection-dominated species transport at fluid interfaces with application to mass transfer from rising bubbles, Journal of Computational Physics, 2017, 347, pp. 261-289

45. Kováts, P.; Thévenin, D.; Zähringer, K.: Characterizing fluid dynamics in a bubble column aimed for the determination of reactive mass transfer. Heat and Mass Transfer, 2017, accepted.

44. Hlawitschka, M. W.; Kováts, P.; Zähringer, K.; Bart, H.-J.: Simulation and experimental validation of reactive bubble colums reactors, Chemical Engineering Science, 2017, 170, pp. 306-319, DOI.10.1016/j.ces.2016.12.053.

43. Schlüter, M.; Billet, A.-M.; Herres-Pawlis, S.: Reactive Bubbly Flows, Chemical Engineering & Technology, 2017, 40(8), p. 1384, DOI:10.1002/ceat.201770085.

42. Kastens, S.; Timmermann, J.; Strassl, F.; Rampmaier, R.F.; Hoffmann, A.; Herres-Pawlis, S.; Schlüter, M.: Test System for the Investigation of Reactive Taylor Bubbles, Chemical Engineering & Technology, 2017, 40(8), pp. 1494-1501, DOI:10.1002/ceat.201700047.

41. Miska, A.; Norbury, J.; Lerch, M.; Schindler, S.: Dioxygen activation: potential future technical applications in reactive bubbly flows, Chemical Engineering & Technology, 2017, 40(8), pp. 1522-1526, DOI:10.1002/ceat.201600684.

40. Haase, K; Kück, U. D.; Thöming, J.; Kähler, C. J.: On the emulation of bubble induced turbulence by randomly moving particles in a grid structure, Chemical Engineering & Technology, 2017, 40(8), pp. 1502-1511, DOI:10.1002/ceat.201600687.

39. Oppermann, A.; Laurini, L.; Etscheidt, F.; Hollmann, K.; Strassl, F.; Hoffmann, A.; Schurr, D.; Dittmeyer, R.; Rinke, G.; Herres-Pawlis, S.: Detection of Copper Bisguanidine NO Adducts at –80°C and 35°C by UV/Vis spectroscopy using an immersion probe and a SuperFocus mixer, Chemical Engineering & Technology, 2017, 40(8), pp. 1475-1483, DOI:10.1002/ceat.201600691.

38. Mießner, U.; Kück, U. D.; Haase, K.; Kähler, C. J., Fritsching, U.; Thöming, J.: Experimental assessment of a new device to mimic bubble swarm turbulence, Chemical Engineering & Technology, 2017, 40(8), pp. 1466-1474, DOI:10.1002/ceat.201600688.

37. Hlawitschka, M. W.; Oßberger, M.; Backes, C.; Klüfers, P., Bart, H.-J.: Reactive Mass Transfer of Single NO Bubbles and Bubble Bouncing in Aqueous Ferric Solutions – A Feasibility Study, Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles, 2017, 72(2), 11 pages, DOI: 10.2516/ogst/2017006.

36. Kipping, R.; Kryk, H.; Schleicher, E.; Gustke, M.; Hampel, U.: Application of wire-mesh sensor for the study of chemical species conversion in a bubble column during chemical absorption of carbon dioxide in sodium hydroxide, Chemical Engineering & Technology, 2017, 40(8), pp. 1425-1433, DOI:10.1002/ceat.201700045.

35. Gast, S.; Matthies, J.; Tuttlies, U.; Nieken, U.: A novel experimental setup for kinetic studies of toluene oxidation in homogeneous phase, Chemical Engineering & Technology, 2017, 40(8), pp. 1445-1452, DOI:10.1002/ceat.201700005.

34. Kováts, P.; Thévenin, D.; Zähringer, K.: Investigation of mass transfer and hydrodynamics in a model bubble column, Chemical Engineering & Technology, 2017, 40(8), pp. 1434-1444, DOI:10.1002/ceat.201600679.

33. Schurr, D.; Guhathakurta, J.; Simon, S.; Rinke, G.; Dittmeyer, R.: Characterization of a Raman spectroscopy and holographic system for gasliquid flows in microchannels, Chemical Engineering & Technology, 2017, 40(8), pp. 1400-1407, DOI:10.1002/ceat.201600622.

32. Falcone, M.; Marschall, H.: Explicit Radial-Basis-Function-Based Finite-Difference Method for Interfacial Mass-Transfer Problems, Chemical Engineering & Technology, 2017, 40(8), pp. 1385-1390, DOI:10.1002/ceat.201600536.

31. Tastan, Ü.; Guba, F.; Ziegenbalg, D.: "Switchable" Reactions for the Investigation of Reactive Mass Transfer Processes. Chemical Engineering & Technology, 2017, 40(8), pp. 1418-1424, DOI:10.1002/ceat.201600586.

30. Merker, D.; Böhm, L.; Oßberger, M.; Klüfers, P.; Kraume, M.: Mass transfer in reactive bubbly flows – A single bubble study. Chemical Engineering & Technology, 2017, 40(8), pp. 1391-1399, DOI: 10.1002/ceat.201600715.

29. Mierka, O.; Munir, M.; Spille, C.; Timmermann, J.; Schlüter, M. Turek, S.: Reactive liquid flow simulation of micromixers based on grid deformation techniques. Chemical Engineering & Technology, 2017, 40(8), pp. 1408-1417, DOI: 10.1002/ceat.201600686.

28. Krauß, M.; Rzehak, R.: Reactive absorption of CO2 in NaOH: Detailed study of enhancement factor models, Chemical Engineering Science, 2017, 166, pp. 193-209, DOI: 10.1016/j.ces.2017.03.029

27. Wolf, M.; Klüfers, P.: Structure and Bonding of High-Spin Nitrosyl–Iron(II) Compounds with Mixed N,O-Chelators and Aqua Ligands, Eur. J. Inorg. Chem., 2017(17), pp. 2303-2312, DOI: 10.1002/ejic.201601329.

26. Aas, B.; Klüfers, P.: The Structural Chemistry of Stable High-Spin Nitrosyl–Iron(II)Compounds with Aminecarboxylato Co-Ligands in Aqueous Solution, Eur. J. Inorg. Chem., 2017(17), pp. 2313–2320, DOI: 10.1002/ejic.201601330.

25. Rzehak, R.; Krauß, M.; Kováts, P.; Zähringer, K.: Fluid Dynamics in a Bubble Column: New Experiments and Simulations, Int. J. Multiphase Flow, 2017, 89, pp. 299-312, DOI: 10.1016/j.ijmultiphaseflow.2016.09.024.

24. Weber, P. S.; Marschall, H.; Bothe, D.: Highly accurate two-phase species transfer based on ALE Interface Tracking. International Journal of Heat and Mass Transfer, 2017, 104, pp. 759–773, DOI: 10.1016/j.ijheatmasstransfer.2016.08.072.

23. Heithoff, S.; Kück, U. D.; Volkmer, P.; Räbiger, N.; Fritsching, U.: Modeling mass transfer in gas-liquid two phase flow in a Jetzone-Loopreactor, The Canadian Journal of Chemical Engineering, 2017, 95(1), pp. 180-186, DOI:  10.1002/cjce.22660.


22. Liebhäuser, P.; Hoffmann, A.; Herres-Pawlis, S.: Tyrosinase Models: Synthesis, Spectroscopy, Theory, and Catalysis, Reference Module in Chemistry, Molecular Sciences and Chemical Engineering, accepted 2016, DOI: 10.1016/B978-0-12-409547-2.11554-9.

21. Rzehak, R.; Ziegenhein, T.; Kriebitzsch, S.; Krepper, E.; Lucas, D.: Unified modeling of bubbly flows in pipes, bubble columns, and airlift columns, Chemical Engineering Science, 2016, 157, pp. 147-158, DOI: 10.1016/j.ces.2016.04.056.

20. Hlawitschka, M. W.; Kováts, P.; Zähringer, K.; Bart, H.-J.: Simulation and Experimental Validation of Reactive Bubble Column Reactors, Chemical Engineering Science, 2016, accepted and in press, DOI: 10.1016/j.ces.2016.12.053.

19. Gründing, D. M.; Fleckenstein, S.; Bothe, D.: A Subgrid-Scale Model for Reactive Concentration Boundary Layers for 3D Mass Transfer Simulations with Deformable Fluid Interfaces, International Journal of Heat and Mass Transfer, 2016, 101, pp. 476-487, DOI: 10.1016/j.ijheatmasstransfer.2016.04.119.

18. Liao, J.; Ziegenhein, T.; Rzehak, R.: Bubbly flow in an airlift column: a CFD study. Journal of Chemical Technology & Biotechnology, 2016, 91, 11, pp. 2904-2915, DOI: 10.1002/jctb.4917.

17. Rzehak, R.; Krepper, E.: Euler-Euler Simulation of Mass-transfer in Bubbly Flows, Chemical Engineering Science, 2016, 155, pp. 459-468, DOI: 10.1016/j.ces.2016.08.036.

16. Timmermann, J.; Hoffmann, M.; Schlüter, M. (2016): Influence of bubble bouncing on mass transfer and chemical reaction, Chemical Engineering & Technology, 2016. 39(10), pp. 1955-1962, DOI: 10.1002/ceat.201600299.

15. Hoffmann, A.; Wern, M.; Hoppe, T.; Witte, M.; Haase, R.; Liebhäuser, P.; Glatthaar, J.; Herres-Pawlis, S.; Schindler, S.: Hand in Hand: Experimental and Theoretical Investigations into the Reactions of Copper(I) Mono- and Bis(guanidine) Complexes with Dioxygen, Eur. J. Inorg. Chem. 2016, 29, pp. 4744–4751. DOI: 10.1002/ejic.201600906.

14. Rzehak, R.: Modeling of Mass-transfer in Bubbly Flows Encompassing Different Mechanisms. Chemical Engineering Science, 2016, 151, pp. 139-143, DOI: 10.1016/j.ces.2016.05.024.

13. Hlawitschka, M. W., Schäfer, J., Hummel, M., Garth, C., Bart, H.-J.: Populationsbilanzmodellierung mit einem Mehrphasen-CFD-Code und vergleichende Visualisierung, Chem. Ing. Techn. 88 (10) 2016, 1480-1491, DOI: 10.1002/cite.201600006.

12. Hlawitschka, M. W., Drefenstedt, S., Bart, H.-J.: Local Analysis of CO2 Chemisorption in a Rectangular Bubble Column Using a Multiphase Euler-Euler CFD Code, J. Chem. Eng. Process. Technol. 7:300. DOI: 10.4172/2157-7048.1000300.

11. Schurr, D.; Strassl, F.; Liebhäuser, P.; Rinke, G.; Dittmeyer, R.; Herres-Pawlis, S.: Decay kinetics of sensitive bioinorganic species in a SuperFocus mixer at ambient conditions. Reaction Chemistry & Engineering, 2016, 1, pp. 485-493. DOI: 10.1039/C6RE00119J.

10. Strassl, F.; Timmermann, J.; Schlueter, M.; Herres-Pawlis, S.: Kinetik der Sauerstoffaktivierung, GIT Labor-Fachzeitschrift, 2016, 9, pp. 39-41.

9. Schurr, D.; Guhathakurta, J.; Baroud, Y.; Simon, S.; Rinke, G.; Dittmeyer, R.: Local concentration measurements in the wake of bubbles based on in-situ Raman spectroscopy and statistical analysis, 9th International Conference on Multiphase Flow (ICMF 2016), Florence, Italy, 22-27 May 2016, paper.

8. Guhathakurta, J.; Li, W.; Simon, S.: Accuracy of 3D position measurement of spherical objects with a holographic single camera setup, Proceedings of the 18. GMA/ITG-Fachtagung Sensoren und Messsysteme 2016, Nürnberg, Germany, 10-11 May 2016, DOI: 10.5162/sensoren2016/6.1.4.


7. Kováts, P.; Thévenin, D.; Zähringer, K.: Fluid dynamical characterization of a bubble column for investigation of mass-transfer, in: Conference on Modelling Fluid Flow (CMFF '15), The 16th International Conference on Fluid Flow Technologies (Vad, J., Ed.), Budapest, Hungary, 1-4 September 2015.

6. Haase, K; Baczyzmalski, D.; Cierpka, C.; Kähler, C.J.: Charakterisierung von Blasen und deren Nachlauf in turbulenter Grundströmung, in: 23. Fachtagung "Lasermethoden in der Strömungsmesstechnik", Dresden, Germany, 8-10 September 2015.

5. Hlawitschka, M. W.; Edgard, W.; Bart, H.-J.: Bubble Interactions – Repulsion Events, Chemie Ingenieur Technik, 87 (8), 2015, p. 1079, 28 JUL 2015, DOI: 10.1002/cite.201550094.

4. Attarakih, M.; AL-Slaihat, F.; Hlawitschka, M. W.; Bart, H.-J.: Modelling the hydrodynamics of bubble columns using coupled OPOSPM-maximum entropy method, Computer-Aided Chemical Engineering, 2015, 37, 203-208, DOI: 10.1016/B978-0-444-63578-5.50029-3.


3. Zähringer, K.; Wagner, L.-M.; Kováts, P.; Thévenin, D.: Experimental characterization of the mass transfer from gas to liquids in a two-phase bubble column, in: 7th International Workshop on Transport Phenomena with Moving Boundaries, Berlin, Germany, October 2014.

2. Zähringer, K.; Kováts, P.; Wagner, L.-M.; Thévenin, D.: Experimentelle Charakterisierung des Stofftransports in Mehrphasenreaktoren durch 2-Farben-LIF, ProcessNet Jahrestagung, Aachen 2014, Paper 7285.

1. Zähringer, K.; Kováts, P.; Wagner, L. M.; Thévenin, D.: Experimentelle Charakterisierung des Stofftransports in Mehrphasenreaktoren durch Zwei-Farben-LIF, Chemie Ingenieur Technik, 86 (9), 2014, pp. 1527-1527. DOI: 10.1002/cite.201450120.

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