Publications
Table of contents
2024
Pyka, T., Bieberle, A., Schubert, M. et al. (2024). Distributor Effects on Liquid Hold-Up in Rotating Packed Beds. Industrial and Engineering Chemistry Research, 63(4), pp. 2000–2010. [DOI]
Nedeltchev, S., Marchini, S., Schubert, M., Hampel, U. (2024). New Approaches for Prediction of Flow Regime Boundaries and Overall Gas Holdups in a Bubble Column Operated with Aqueous Solutions of 2-Pentanol. Journal of Chemical Engineering of Japan, 57(1), 2330388. [DOI]
2023
Marchini, S., Bieberle, A., Schubert, M., Hampel, U. (2023). Uncertainty analysis of gamma-ray densitometry applied for gas flow modulation technique in bubble columns. Chemical Engineering Science, 282, 119214. [DOI]
Marchini, S., Bieberle, A., Schubert, M., Hampel, U. (2023). Guidance for Measuring the Axial Gas Dispersion Coefficient in Bubble Columns via Gas Flow Modulation. Industrial and Engineering Chemistry Research, 62(46), pp. 19936–19950. [DOI]
Beckmann, M., Babick, F., Schubert, M. et al. (2023). 70 Years Process Engineering at Dresden University of Technology | 70 Jahre Verfahrenstechnik an der TU Dresden. Chemie-Ingenieur-Technik, 95(11), pp. 1691–1706. [DOI]
Loll, R., Nordhausen, L., Bieberle, A., Schubert, M. et al. (2023). Analysis of Flow Patterns in Structured Zickzack Packings for Rotating Packed Beds Using γ-Ray Computed Tomography. Industrial and Engineering Chemistry Research, 62(38), pp. 15625–15634. [DOI]
Nedeltchev, S., Marchini, S., Schubert, M., Hlawitschka, M.W., Hampel, U. (2023). Novel Identifier of Transitions in Bubble Columns Operated with Water and Aqueous Alcohol Solutions. Chemical Engineering and Technology, 46(9), pp. 1782–1790. [DOI]
Marchini, S., Vishwakarma, V., Schubert, M., Brunazzi, E., Hampel, U. (2023). Effects of non-uniform weeping distributions on tray and point efficiencies. Results in Engineering, 19, 101238. [DOI]
Heydari, N., Larachi, F., Kipping, R., Schubert, M. (2023). Mass Transfer Performance and Hydrodynamics of a Bubble Column Reactor at Offshore Floating Conditions. Industrial and Engineering Chemistry Research, 62(31), pp. 12183–12190. [DOI]
Wiedemann, P., Meller, R., Schubert, M., Hampel, U. (2023). Application of a hybrid multiphase CFD approach to the simulation of gas–liquid flow at a trapezoid fixed valve for distillation trays. Chemical Engineering Research and Design, 193, pp. 777-786. [DOI]
Marchini, S., Bieberle, A., Schleicher, E., Schubert, M., Hampel, U. (2023). Sensing Strategies for Determining the Axial Gas Dispersion Coefficient in Bubble Columns via Gas Flow Modulation Technique. Industrial & Engineering Chemistry Research. [DOI]
Solnař, S., Haase, S., Jirout, T. (2023). Application of the Temperature Oscillation Method to Laminar Flow in Straight Horizontal and Curved Minichannels. Energies 2023, 16, 1714. [DOI]
2022
Hernandez, C. J. N., Link, G., Schubert, M., Hampel, U. (2022). Experimental Study of a Compact Microwave Applicator for Evaporation of Airflow-Entrained Droplets. Materials 15(19), 6765. [DOI]
Marchini, S.,Schubert, M.,Hampel, U. (2022). Analysis of the effect of uncertainties in hydrodynamic parameters on the accuracy of the gas flow modulation technique for bubble columns. Chemical Engineering Journal, 434, 133478. [DOI]
Hernandez, J.N.C., Link, G., Schubert, M., Hampel, U. (2022). Novel Mixing Relations for Determining the Effective Thermal Conductivity of Open-Cell Foams. Materials, 15(6), 2168. [DOI]
De Assis Dias, F., Schubert, M., Schleicher, E., Bulst, M., Hampel, U. (2022). Electrical impedance spectroscopy for fouling detection in heat exchangers with earth connected working electrodes. Proceedings of International Workshop on Impedance Spectroscopy. [DOI]
Flechsig, S., Sohr, J., Schubert, M., Hampel, U.,Kenig, E.Y. (2022). A new tomography-based approach for the fluid dynamic description of conventional structured packings and sandwich packings. Chemical Engineering and Processing - Process Intensification,171, 108530. [DOI]
Shumilov, V., Kirilin, A., Tokarev, A., Boden, S., Schubert, M., Hampel, U., Hupa, L., Salmi, T., Murzin, D.Y. (2022). Preparation of γ-Al2O3/α-Al2O3 ceramic foams as catalyst carriers via the replica technique. Catalysis Today. [DOI]
Haase, S., Marschner, S., Ayubi, M.-M., Lange, M., 2021. Gas-Liquid Flow in Small Channels: Advanced Artificial Neural Network Classifiers for Flow Regime Prediction. Chemical Engineering and Processing: Process Intensification, im Druck. [DOI]
Russo, V., Haase, S., Tolvanen, P. (2022). Process Intensification in Chemical Reaction Engineering. Processes, 10(7), 1294. [DOI]
Russo, V., Haase, S., Tolvanen, P. (2022). Process Intensification in Chemical Reaction Engineering. Processes, 10(1), 99. [DOI]
2021
Camacho Hernandez, J.N., Link, G., Schubert, M., Hampel, U. (2021). Modeling of the effective permittivity of open-cell ceramic foams inspired by platonic solids. Materials,14(23), 7446. [DOI]
Xiao, J., Yan, H., Schubert, M., Schleicher, E., Hampel, U. (2021). Effect of Nozzle Geometry on Centerline Gas Holdup in Submerged Gas Injection. Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science, 52(6), pp. 4002–4011. [DOI]
Timaeus, R., Hampel, U., Schubert, M. (2021). Inclined rotating fixed-bed reactor – Experimental characterization and model-based predictions. Chemical Engineering Journal, 423, 130244. [DOI]
Vishwakarma, V., Haq, S.A., Schleicher, E., Schubert, M., Hampel, U. (2021). Experimental analysis of the hydrodynamic performance of an industrial-scale cross-flow sieve tray. Chemical Engineering Research and Design, 174, pp. 294–306. [DOI]
Mohammed, I., Bernhardt, R., Schubert, M., Hampel, U. (2021). Non-invasive morphological characterization of cellular loofa sponges using digital microscopy and micro-CT. International Journal of Chemical Reactor Engineering, 19(10), pp. 1057–1073. [DOI]
Alexander, Döß, Schubert, M., Hampel, U., Geipel, C., Schleicher, E. (2021). Two-Phase Flow Morphology and Phase Fractions in Larger Feed Line Sections. Chemie-Ingenieur-Technik, 93(7), pp. 1134–1141. [DOI]
Flegiel, F., Windmeier, C., Wiezorek, M., Hampel, U., Schleicher, E. (2021). Capacity and Sizing of Wire Mesh Mist Eliminators at Critical Fluid Properties. Chemie-Ingenieur-Technik, 93(7), pp. 1166–1177. [DOI]
Alexander, Döß, Schubert, M., Wiezorek, M., Schleicher, E., Schunk, C. (2021). Morphology of Flashing Feeds at Critical Fluid Properties in Larger Pipes. Chemie-Ingenieur-Technik, 93(7), pp. 1126–1133. [DOI]
Windmeier, C., Flegiel, F., Alexander, Döß, Schubert, M.,Hampel, U. (2021). A New Research Infrastructure for Investigating Flow Hydraulics and Process Equipment at Critical Fluid Properties. Chemie-Ingenieur-Technik, 93(7), pp. 1119–1125. [DOI]
Marchini, S., Vishwakarma, V. Schubert, M., Brunazzi, E., Hampel, U. (2021). Direct tray and point efficiency measurements including weeping effects through a convenient add-on for air–water simulators. Industrial and Engineering Chemistry Research. 60 (6), 2600–2612. [DOI]
Vishwakarma, V., Schleicher, E., Bieberle, A., Schubert, M., Hampel, U. (2021). Advanced flow profiler for two-phase flow imaging on distillation trays. Chemical Engineering Science, 231, 116280. [DOI]
Vishwakarma, V., Wiedemann, P., Schleicher, E., Schubert, M., Hampel, U. (2021). A new approach for estimating the effective froth height on column trays. Chemical Engineering Science, 231, 116304. [DOI]
Gładyszewski, K., Groβ, K., Bieberle, A., Schubert, M., Górak, A., Skiborowski, M. (2021). Evaluation of performance improvements through application of anisotropic foam packings in rotating packed beds. Chemical Engineering Science, 230, 116176. [DOI]
Haase, S., De Araujo Filho, C.A., Wärnå, J., Murzin, D.Y., Salmi, T. (2021). Reactor selection for upgrading hemicelluloses: Conventional and miniaturised reactors for hydrogenations. Processes, 9(9), 1558. [DOI]
Ayubi, M.M., Werner, A., Steudler, S.,Haase, S., Walther, T., Hilpmann, G. (2021). Enhanced xylan conversion to xylitol in a bio- and chemocatalytic one-pot process. Catalysis Today, 367, pp. 137–144. [DOI]
Maisels, A.; Hiller, A.; Simon, F.-G. (2021). Chemisches Recycling für Kunststoffe: Status und Perspektiven. In: Chem. Ing. Tech., 93, No. 11, 1-10. [DOI]
Haase, S., Marschner, S., Ayubi, M.M., Lange, M., (2021). Gas-liquid flow in small channels: artificial neural network classifiers for flow regime prediction. Chemical Engineering and Processing - Process Intensification, 108687. [DOI]
2020
Camacho Hernandez, J.N., Link, G., Soldatov, S., Schubert, M., Hampel, U. (2020). Experimental and numerical analysis of the complex permittivity of open-cell ceramic foams. Ceramics International, 46(17), pp. 26829–26840. [DOI]
Härting, H.-U., Berger, R., Lange, R., Larachi, F., Schubert, M. (2020). Corrigendum to “Liquid backmixing in an inclined rotating tubular fixed bed reactor – Augmenting liquid residence time via flow regime adjustment” [Chem. Eng. Process.: Process Intensif. (2015) 2–10] (Chemical Engineering and Processing - Process Intensification (2015) 94 (2–10), (S0255270115000392), (10.1016/j.cep.2015.02.003))- Chemical Engineering and Processing - Process Intensification,156, 108087. [DOI]
Timaeus, R., Schleicher, E., Bieberle, A., Hampel, U., Schubert, M. (2020). Identification of the process windows of inclined rotating fixed-bed reactors with concentric tube – A hydrodynamic analysis. Chemical Engineering Science, 220, 115637. [DOI]
Hampel, U., Schubert, M., Alexander, Döß, Groß, K., Qammar, H. (2020). Recent Advances in Experimental Techniques for Flow and Mass Transfer Analyses in Thermal Separation Systems. Chemie-Ingenieur-Technik, 92(7), pp. 926–948. [DOI]
Nedeltchev, S., Top, Y., Hlawitschka, M.W., Schubert, M., Bart, H.-J. (2020). Identification of the regime boundaries in bubble columns based on the degree of randomness in the signals. Canadian Journal of Chemical Engineering, 98(7), pp. 1607–1621. [DOI]
Möller, F., Dehmelt, T., Schmidt, N., Hampel, U., Schubert, M. (2020). A recirculation cell approach for hydrodynamic and mass transfer modeling in bubble columns with and without internals. Chemical Engineering Journal, 383, 123197. [DOI]
Klemm, M., Kröger, M., Görsch, K., Haase, S., Al-Naji, M., Gläser, R. (2020). Experimental evaluation of a new approach for a two-stage hydrothermal biomass liquefaction process. Energies, 13(14), 3692. [DOI]
Haase, S., Bauer, T., Graf, E. (2020). Gas-Liquid Flow Regime Prediction in Minichannels: A Dimensionless, Universally Applicable Approach. Industrial and Engineering Chemistry Research, 59(9), pp. 3820–3838. [DOI]
Haase, S., Bauer, T., Hilpmann, G., Ayubi, M.-M., Abiev, R. (2020). Simultaneous Detection of Hydrodynamics, Mass Transfer and Reaction Rates in a Three-Phase Microreactor. Theoretical Foundations of Chemical Engineering, 54(1), pp. 48–63. [DOI]
Hilpmann, G., Kurzhals, P., Reuter, T., Ayubi, M.M. (2020). Reaction kinetics of one-pot xylan conversion to xylitol via precious metal catalyst. Frontiers in Chemical Engineering, accepted. [DOI]
Ayubi, M.M., Werner, A., Steudler, S., Haase, S., Lange, R., Walther, T., Hilpmann, G. (2020). Enhanced xylan conversion to xylitol in a bio- and chemocatalytic one-pot process. in press. [DOI]
Steudler, S., Ayubi, M.M., Hilpmann, G., Lange, R., Werner, A., Walther, T., Bley, T. (2020). Immobilization of xylanases on metallic hollow spheres for biochemical catalysis. Catalysis Today. in press. [DOI]
Haase, S., Bauer, T., Hilpmann, G., Lange, M., Ayubi, M.M., Abiev, R. (2020). Simultaneous Detection of Hydrodynamics, Mass Transfer and Reaction Rates in a Three-Phase Microreactor. Theoretical Foundations of Chemical Engineering volume 54, 48–63. [DOI]