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M.Sc. Julia Schuler

M.Sc. Julia Schuler Photo of M.Sc. Julia Schuler

Telephone
(+49)231 755-5120

Fax
(+49)231 755-8084

Address

Fakultät Bio- und Chemieingenieurwesen
Arbeitsgruppe ApparateDesign
Geschossbau 3

Room 513

Information

Curriculum Vitae

Julia Schuler has studied mechanical engineering at Paderborn University since 2012 with a focus on energy technology and process engineering. She performed her study thesis about the “Experimental and computational study of interstitial saturation and transport in oil mist filters” at Curtin University in Perth, Western Australia. This work included the investigation of multiphase flow using micro CT and CFD. Julia completed her masters with the thesis “Modelling and theoretical comparison of different approaches for the treatment of nitrous waste gases” which she performed at Lanxess Deutschland GmbH in Leverkusen. Since July 2018 she works as a research associate at the Laboratory of Equipment Design. In her research she will examine the transport phenomena in miniaturized equipment using micro CT.

Research

For the design and optimization of miniaturized equipment a deeper understanding of the ongoing transport phenomena is essential. However, to gain insights into flow patterns on a small scale non-invasive measurement technologies are desirable. A non-invasive 3d imaging technique based on the attenuation of X-rays, such as micro CT, allows profound insights into fluid flow in the submicron range. In combination with other analyzing methods, e.g. Raman spectroscopy, or numerical investigations, micro CT is a promising tool for the examination of different kind of stationary or periodic phenomena.


Publications

Journal Articles

journalJulia Schuler, Jakob Herath, Norbert Kockmann

3D investigations of microscale mixing in helically coiled capillaries

Journal of Flow Chemistry, 2021, 10.1007/s41981-021-00161-6

journalJulia Schuler, Laura Maria Neuendorf, Kai Petersen, Norbert Kockmann

Micro‐computed tomography for the 3D time‐resolved investigation of monodisperse droplet generation in a co‐flow setup

AIChE Journal, 2020, https://doi.org/10.1002/aic.17111

journalJulia Schuler, Norbert Kockmann

Micro‐computed tomography for the investigation of stationary liquid–liquid and liquid–gas interfaces in capillaries

AIChE Journal, 2019, https://doi.org/10.1002/aic.16890


Conference Proceedings

proceedingJulia Schuler, Laura Maria Neuendorf, Kai Petersen, Norbert Kockmann

3D Investigation of Droplet Generation in a Miniaturized Coflowing Device Using Micro-Computed Tomography

ICNMM2020-1061, 2020, vol. 2020, p. V001T16A004, 10.1115/ICNMM2020-1061

proceedingJulia Schuler, Norbert Kockmann

Investigation of Multiphase Interfaces in Small Channels Using Micro CT

ASME-ICNMM2019, 2019, vol. 2019, https://doi.org/10.1115/ICNMM2019-4203


Talks

talkJulia Schuler, Nina Gumbiowski, Michael Kensy, Laura Maria Neuendorf, Norbert Kockmann

3D Investigation of Droplet Generation in a Co-flow Device Using Micro-Computed Tomography

ProcessNet Fachgruppensitzung CFD & MPH, 09.-10.03.2021, Paderborn, Germany

talkJulia Schuler, Laura Maria Neuendorf, Kai Petersen, Norbert Kockmann

3D Investigation of Droplet Generation in a Miniaturized Coflowing Device Using Micro-Computed Tomography

ASME 2020 18th International Conference on Nanochannels, Microchannels, and Minichannels, 13-15072020, Virtual, Online

talkJulia Schuler, Norbert Kockmann

Application of microCT for the visualization of multiphase phenomena in small ducts

ECCE 12 - 12th Euopean Congress of Chemical Engineering, 15.-19092019, Florence, Italy


Posters

posterJulia Schuler, Felix Buthmann, Jakob Herath, Janine Ernst, Norbert Kockmann

Investigations on single and multiphase mass transfer of iodine in miniaturized equipment using micro-computed tomography

Jahrestreffen der ProcessNet-Fachgruppe Wärme- und Stoffübertragung, 12.-1303.2020, Erfurt, Germany

posterJ. Schuler, J. Ernst, J. Herath, N. Kockmann

Investigation of liquid/liquid mass transfer in small equipment using X-Ray based imaging techniques

Jahrestreffen der ProcessNet-Fachgruppen Mischvorgänge, Trocknungstechnik und Wärme-und Stoffübertragung 2019, 18.-20.03.2019, Essen, Germany


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Scientific Theses

BachelorAnn-Kristin Matina Sigalas (Supervisor: Julia Schuler)

3D Investigation of Co-Flow Droplet Generation in the Squeezing Regime Using Micro-Computed Tomography

TU Dortmund, Fakultät BCI, Arbeitsgruppe Apparatedesign, 02.07.2021

MasterNina Gumbiowski (Supervisor: Julia Schuler)

Comparison of different droplet generation geometries using micro CT

TU Dortmund, Fakultät BCI, Arbeitsgruppe Apparatedesign, 26.01.2021

MasterJakob Herath (Supervisor: Julia Schuler)

Investigation of passive and laminar mixing in straight and coiled capillaries using X-ray computed microtomography

TU Dortmund, Fakultät BCI, Arbeitsgruppe Apparatedesign, 08.02.2021

BachelorEvgenia Papadimitriou (Supervisor: Julia Schuler)

Investigation of Diffusive Mixing in Miniaturized Equipment using OPEN FOAM

TU Dortmund, Fakultät BCI, Arbeitsgruppe Apparatedesign, 03.09.2020

MasterMichael Rafael Kensy (Supervisor: Julia Schuler)

Numerische Untersuchung der Tropfenentstehung in einer miniaturisierten Gleichstromkonfiguration und Vergleich mit CT-Daten

TU Dortmund, Fakultät BCI, Arbeitsgruppe Apparatedesign, 01.07.2020

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