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Dr.-Ing. Lutz Böhm

Lupe [1]

PostDoc / Candidate for Habilitation - the qualifying examination for lecturing at a university

lutz.boehm@tu-berlin.de [2]

Research / Head of the working group
Transport phenomena in reactive Newtonian and non-Newtonian multiphase systems

Third-party funds ([Co-]Applicant, official)
DFG Gepris [3]
SPP1740 - Reactive Bubbly Flows
[5]SPP1934 - DiSPBiotech [6]

Link to publications in journals [7]
[9]Scopus Author details [10]

PhD thesis
Link to online published thesis

Social Media
Facebook [12]
Instagram [13]
Youtube [14]

Scientific Social Media
Academia.edu [15]
ReseachGate [16]
Publons [17] (reviews for journals, selection)
LinkedIn [18]

Physikalische Chemie (VL) [19]
Energie-, Impuls- und Stofftransport IIB (IV) [20]
Membranverfahren (VL, winter term) [21]

Substitute for/in the past/unregular:
Energie-, Impuls- und Stofftransport IIA (VL)
Verfahrenstechnik I und II (VL/UE)
Seminar zur Verfahrenstechnik I und II (Sprechstunde zur Vorbereitung auf die mündliche Prüfung VT)
Rechnergestützte Problemlösungen für die verfahrenstechnische Praxis (IV)
Betrieb verfahrenstechnischer Maschinen und Apparate (PR)
Projekt Verfahrensplanung

ERASMUS coordinator
[22]Member of the "Fakultätsrat der Fakultät 3" [23]
[24]Member of the "Haushaltausschuss der Fakultät 3"
Member of the "AG Frauenförderplan der Fakultät 3"

Bachelor's / Master's Theses

Current offers for theses can be found here [25].


In many biological and chemical processes, multiphase operation units are important parts of the process chain. Depending on the application, the aims are energy, momentum and/or mass transfer in the according unit. As in real processes, often a non-Newtonian continuous phase is apparent, the description of such systems is even more complicated. Nevertheless, even for Newtonian continuous phases, e.g., the deformation of fluidic particles (bubbles or drops) still leads to a demand in fundamental research.

Experimental investigations

At the Department, diverse research projects deal especially with the momentum and mass transfer in multiphase systems. This includes numerical and experimental investigations of the fluid dynamics of fluidic particles (bubbles and drops, in the following only called drops) with, i.a., questions regarding the the influence of the rheology on transport phenomena und the investigations of coalescence and breakage of drops within single drop or droplet swarm systems for the description with the help of population balance equations. In the field of mass transfer, diverse projects investigate, i.a., the influence of surfactants (tenside, salt, also nano particles) and rheology of the continuous phase.

These topics are investigated in the following projects while this list is not complete:

SPP1740 - Reactive Bubbly Flows [26]

SPP1934 - DiSPBiotech - Dispersitäts-, Struktur- und Phasenänderungen von Proteinen und biologischen Agglomeraten in biotechnologischen Prozessen

SFB/TR63 - inPROMPT - Integrated Chemical Processes in Liquid Multiphase Systems [28]

BMWi ERICAA - Energy and resource saving by innovative and CFD-based design of liquid/liquid-gravity-separators

AiF ZIM - SPI- Smart Process Inspection

and more

The used measurement techniques are, i.a., laser-based particle image velocimetey, high speed cameras und electrodiffusion method (EDM). The information gained with these techniques can be compared with CFD simulations (Fig.1). In the frame of the projects a close collaboration is established with, e.g., the Department of Civil Engineering of the University of British Columbia, Vancouver, Canada, and the Institute of Chemical Process Fundamentals of the Academy of Sciences of the Czech Republic.

Exemplary results from the PhD thesis

Fig. 1 Exemplary results obtained with different techniques
Lupe [29]

Numerical investigations

Numerical investigations of multiphase systems are performed with the help of the software OpenFOAM. The fluid dynamics and the mass transfer of bubbles in non-Newtonian continuous phases are of particular interest.

In the past, the Computational Fluid Dynamic (CFD) Tool “Fluent” was used, as well, in combination with User Defined Functions (UDF). UDFs are subroutines written in “C++” which are implemented to reduce the calculation duration while improving the quality of the results at the same time.

Specific focus was, e.g., on the shear stress (Fig. 2), the terminal rise velocity and the flow conditions.

Exemplary numerical results from the PhD thesis

Fig.2 Shear stress results drom the numerical investigation
Lupe [30]

Fig.2 Shear stess results from the numerical investigation

Publication in the IJMF as audioslides

Link to publication [31]


MAR 2-1 / ACK 7
MAR 2.051 / ACK 172
Marchstrasse 23
10587 Berlin
+49 (0)30 314 27825
oder 70465
Fax: +49 (0)30 314 72756

CV and List of Publications

  • Lutz Böhm CV and publication list January 2022 Website [32]
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