Location & approach

By Car

The campus of the Technical University of Dortmund is located near the freeway junction Dortmund West, where the Sauerland line A45 crosses the Ruhr expressway B1/A40. The Dortmund-Eichlinghofen exit on the A45 leads to the South Campus, the Dortmund-Dorstfeld exit on the A40 leads to the North Campus. The university is signposted at both exits.

By bus and train

The "Dortmund Universität" S-Bahn station is located directly on the North Campus. From there, the S-Bahn line S1 runs every 15 or 30 minutes to Dortmund main station and in the opposite direction to Düsseldorf main station via Bochum, Essen and Duisburg. In addition, the university can be reached by bus lines 445, 447 and 462. Timetable information can be found on the homepage of the Rhine-Ruhr Transport Association, and DSW21 also offer an interactive route network map.

The H-Bahn

One of the landmarks of the TU Dortmund is the H-Bahn. Line 1 runs every 10 minutes between Dortmund Eichlinghofen and the Technology Center via Campus South and Dortmund University S, while Line 2 commutes every 5 minutes between Campus North and Campus South. It covers this distance in two minutes.

By Airplane

From Dortmund Airport, the AirportExpress takes just over 20 minutes to Dortmund's main train station, and from there, the S-Bahn takes you to the university. A wider range of international flight connections is offered by Düsseldorf Airport, about 60 kilometers away, which can be reached directly by S-Bahn from the university's train station.

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Contrast

Location & approach

By Car

The campus of the Technical University of Dortmund is located near the freeway junction Dortmund West, where the Sauerland line A45 crosses the Ruhr expressway B1/A40. The Dortmund-Eichlinghofen exit on the A45 leads to the South Campus, the Dortmund-Dorstfeld exit on the A40 leads to the North Campus. The university is signposted at both exits.

By bus and train

The "Dortmund Universität" S-Bahn station is located directly on the North Campus. From there, the S-Bahn line S1 runs every 15 or 30 minutes to Dortmund main station and in the opposite direction to Düsseldorf main station via Bochum, Essen and Duisburg. In addition, the university can be reached by bus lines 445, 447 and 462. Timetable information can be found on the homepage of the Rhine-Ruhr Transport Association, and DSW21 also offer an interactive route network map.

The H-Bahn

One of the landmarks of the TU Dortmund is the H-Bahn. Line 1 runs every 10 minutes between Dortmund Eichlinghofen and the Technology Center via Campus South and Dortmund University S, while Line 2 commutes every 5 minutes between Campus North and Campus South. It covers this distance in two minutes.

By Airplane

From Dortmund Airport, the AirportExpress takes just over 20 minutes to Dortmund's main train station, and from there, the S-Bahn takes you to the university. A wider range of international flight connections is offered by Düsseldorf Airport, about 60 kilometers away, which can be reached directly by S-Bahn from the university's train station.

ServicePortal UniMail

New Publication available

11/13/2025

Graphical Abstract Paper

Understanding the effect of screw design on continuous particle isolation performance within a continuous vacuum screw filter

Marc Peter Meier, Henrik Julian Felix Bettin, Kerstin Wohlgemuth

https://doi.org/10.1016/j.powtec.2025.121808

Continuous manufacturing (CM) provides high potential for the pharmaceutical industry, for instance in terms of elimination of batch-to-batch variability, increased space-time yield and reduced waste. Therefore, there is an increasing demand for CM equipment. Since crystallization is involved in about 90 % of the manufacturing processes of active pharmaceutical ingredients, several technologies for continuous crystallization are already available. However, the particle isolation within a crystal process chain represents a bottleneck for end-to-end continuous pharmaceutical manufacturing. We developed and patented the continuous vacuum screw filter (CVSF) for continuous filtration, washing and drying in a modular setup to address the lack of CM equipment for continuous particle isolation. In this study, we focus on the performance and robustness of the particle isolation process in the CVSF according to needs predetermined by the crystallization process, i.e. varying volume flows or suspension densities, by the adaptation of screw design. By increasing the pitch distance of the screw, particle backslip is reinforced, which impairs particle traceability. Nevertheless, we demonstrate that screw design within the CVSF is key to enable efficient filter cake deliquoring and particle purification, and to tune the residence time within the apparatus in a desired way.