Thomas Ehlert - Contact (Paderborn University)

Thomas Ehlert, M.Sc.

Contact

Biography

Publications

Fluid Process Engineering

Research Associate - Theoretical investigation of the fluid dynamics and mass transfer behavior of moving columns

VCard

Phone:

+49 5251 60-2179

E-mail:

thomas.ehlert(at)upb(dot)de

Office:

E3.155

Visitor:

Pohlweg 55
33098 Paderborn

Miscellaneous
Since 10/2020	Academic research assistant at the chair of fluid process engineering at the University of Paderborn
04/2018 - 09/2020	Master studies in mechanical engineering at the University of Paderborn Field of specialization in energy and process engineering Mastethesis: "Modeling of continuous rectification with incomplete reflux in packing columns based on hydrodynamic analogy." other thesis: "Extension of the hydrodynamic analog model for reactive absorption in packed columns to include heat transport."
10/2013 - 02/2018	Bachelor studies in mechanical engineering at the University of Paderborn Field of specialization in energy and process engineering Bachelorthesis: "Heat transfer in innovative heat engines Investigation of the influence of dead volume on the operating behavior of Encontech engines."

Since 10/2020	Academic research assistant at the chair of fluid process engineering at the University of Paderborn
04/2018 - 09/2020	Master studies in mechanical engineering at the University of Paderborn Field of specialization in energy and process engineering Mastethesis: "Modeling of continuous rectification with incomplete reflux in packing columns based on hydrodynamic analogy." other thesis: "Extension of the hydrodynamic analog model for reactive absorption in packed columns to include heat transport."
10/2013 - 02/2018	Bachelor studies in mechanical engineering at the University of Paderborn Field of specialization in energy and process engineering Bachelorthesis: "Heat transfer in innovative heat engines Investigation of the influence of dead volume on the operating behavior of Encontech engines."

Open list in Research Information System

2023

Experimental analysis of ship motion effects on the performance of an absorption column equipped with structured packings

T. Mamedov, E. Schleicher, M. Schubert, T. Ehlert, E.Y. Kenig, U. Hampel. Experimental analysis of ship motion effects on the performance of an absorption column equipped with structured packings. In: Jahrestreffen der ProcessNet-Fachgruppen Fluidverfahrenstechnik und Adsoprtion, Frankfurt am Main, 2023.

Charakterisierung des Einflusses neigungsinduzierter Strömungsformen mit dem Ansatz der hydrodynamsichen Analogie

T. Ehlert, T. Mamedov, M. Schubert, E.Y. Kenig. Charakterisierung des Einflusses neigungsinduzierter Strömungsformen mit dem Ansatz der hydrodynamsichen Analogie. In: Jahrestreffen der ProcessNet-Fachgruppen Fluidverfahrenstechnik und Adsoprtion, Frankfurt am Main, 2023.

Modellierung des Randspalts in Strukturpackungskolonnen mit dem Ansatz der hydrodynamischen Analogien

T. Ehlert, N. Lutters, E.Y. Kenig. Modellierung des Randspalts in Strukturpackungskolonnen mit dem Ansatz der hydrodynamischen Analogien. In: Jahrestreffen der ProcessNet-Fachgruppen Fluidverfahrenstechnik und Adsoprtion, Frankfurt am Main, 2023.

2022

Liquid flow morphology investigation in structured packings for offshore applications using a novel flow imaging sensor

T. Mamedov, E. Schleicher, M. Schubert, T. Ehlert, E.Y. Kenig. Liquid flow morphology investigation in structured packings for offshore applications using a novel flow imaging sensor. In: Jahrestreffen der ProcessNet Fachgruppen Fluidverfahrenstechnik und Hochdruckverfahrenstechnik, Frankfurt am Main, 2022.

Modellierung des Stofftransportes in einer geneigten Kolonne mit dem Ansatz der hydrodynamischen Analogien

T. Ehlert, T. Mamedov, M. Schubert, E.Y. Kenig, 2022

Flow Morphology of TEG Desiccant in a Structured Packing Air Dehumidifier Exposed to Floating Conditions

T. Mamedov, E. Schleicher, M. Schubert, T. Ehlert, E.Y. Kenig, U. Hampel, in: Proceedings of the 12th international conference Distillation & Absorption 2022, 2022

2021

Modelling of a continuous distillation process with finite reflux ratio using the hydrodynamic analogy approach

L. Bolenz, T. Ehlert, C. Dechert, R. Bertling, E. Kenig, Chemical Engineering Research and Design (2021), pp. 99-108

DOI

2020

Einfluss der Füllkörpergeometrie und Strömungsformen auf die Trennleistung von Absorptionskolonnen