Felix Reinke, M.Sc.
- Research Associate
- Wet separation of metal particles
- Group:
- Phone: +49 721 608-46564
- Fax: +49 721 608-46563
- felix reinke ∂does-not-exist.kit edu
Institut für Mechanische Verfahrenstechnik und Mechanik
Karlsruher Institut für Technologie (KIT)
Geb. 30.70
Straße am Forum 8
D-76131 Karlsruhe
Research Topic
Development of a design methodology for the optimization of a wet separator for submicron metal particles
The processing of metals by grinding, brushing and polishing produces very small metal particles which, when mixed with air, can form an explosive atmosphere. Nowadays machining processes emit even smaller metal particles, of which separation is becoming more and more complex and requires downstream filter elements, especially for the alveolar dusts (primarily PM1 and PM2.5 fraction). The additional separators are associated with a higher pressure drop and increase the energy consumption. In contrast to conventional dry separation processes, innovative wet separators can be able to separate the particle fractions with comparatively low pressure drop.
Due to the latest development of additive manufacturing processes (3D printing), there are hardly any limits to the geometry of components today, which has enormous potential for the nozzle design of new wet separators.
The main emphasis of this work is the development of a new wetting and separation process which aspirates the washing fluid for wetting the metal particles and mixes it with the exhaust gas through fluidic effects. A design methodology for the optimization of a special washing nozzle for the wet separation of very small metal particles will also be investigated.
| Title | Type | Time |
|---|---|---|
| Investigation of the potential of low-cost particle sensors with regard to the application field of resource-efficient digitized dust collection systems | Bachelor or Master Thesis | possible at any time |
| Investigation of the potential of low-cost particle sensors with regard to the application field of resource-efficient digitized dust collection systems | Bachelor or Master Thesis | possible at any time |
| Title | Authors | Source |
|---|---|---|
| Investigation of the potential of in-line particle concentration measurements in gas particle separation processes by using low-cost particulate matter sensors | F. Reinke, J. Meyer, A. Dittler |
Journal of Aerosol Science, 2024, 106476, https://doi.org/10.1016/j.jaerosci.2024.106476 (open acess) |
| Applied geometry optimization of an innovative 3D-printed wet-scrubber nozzle with a Lattice Boltzmann method | F. Reinke, N. Hafen, M. Haussmann, M. Novosel, M.J. Krause, A. Dittler |
Chemie Ingenieur Technik, 2022, 94, No. 3, 348-355, https://doi.org/10.1002/cite.202100151 (open access) |
| Title | Conference | Authors |
|---|---|---|
| Entwicklung eines Low-Cost PM Sensorenclusters zur Untersuchung des Abscheideverhaltens eines Nassabscheiders | 15. Dresdner Sensor-Symposium 2021 |
F. Reinke, M. Novosel, J. Meyer, A. Dittler |
| Additive manufacturing in gas cleaning applications | AMPA 2023 − Additive Manufacturing for Products and Applications |
F. Reinke, C. Straube, J. Meyer, A. Dittler |
| Applied geometry optimization of a novel 3D-printed wet-scrubber nozzel with Lattice Boltzmann methods | FILTECH 2022, The Filtration Event |
F. Reinke, M. Novosel, J. Meyer, A. Dittler |
| Real-world application of low-cost PM sensors in dedusting systems | FILTECH 2023, The Filtration Event |
F. Reinke, J. Meyer, A. Dittler |
| Versuchsmethodik zur Optimierung der Nassabscheidung feinster Partikeln | Jahrestreffen der ProcessNet-Fachgruppen Gasreinigung und Partikelmesstechnik 2021 |
F. Reinke, M. Novosel, J. Meyer, A. Dittler |