38Validation of the simulation of continuous aerosol deposition at various wire mesh types including nontrivial particle-particle and particle-wire adhesion forces by laboratory measurementsSchmidt, K.; Ripperger, S.; Mantler, A.; Meyer, F.FILTECH Proceedings2023DNSlab, Filtration Efficiency, Filter Cake Build-Up
37High-Pressure Reverse Osmosis for Industrial Water Recycling: Permeate-Sided Pressure Drop as Performance-Limiting Factor
DOI: 10.1002/cite.202100021
Kleffner, C.; Braun, G.; Antonyuk, S.Chemie Ingenieur Technik 93, no. 9, p. 1352-13582021DNSlab, Pressure Drop
36Electret Filters — From the Influence of Discharging Methods to Optimization Potential DOI: 10.3390/atmos12010065Kerner, M.; Schmidt, K.; Schumacher, S.; Asbach, C.; Antonyuk, S.Atmosphere 12(1), 652021DNSlab, Filtration Efficiency
351 ½-Way CFD-DEM coupling with DNSlab: The optimal compromise between modeling depth and computer resources demand for the 3D simulation of microscale fluid-particle-processesSchmidt, K.; Puderbach, V.; Antonyuk, S.FILTECH Proceedings2021DNSlab, Filter Cake Build-Up and Backwashing
34A Coupled CFD-DEM Model for Resolved Simulation of Filter Cake Formation during Solid-Liquid Separation.
DOI: 10.3390/pr9050826
Puderbach, V.; Schmidt, K.; Antonyuk, S.Processes 9(5), 8262021DNSlab, Filter Cake Build-Up and Backwashing
33Evaluation of Tensile Adhesion Strength in Simulated Dust Cakes on Fabric Filters DOI: 10.1002/ceat.201900541Zhang, Q.; Horst, D.; Schmidt, E.Chemical Engineering & Technology 44, no. 2, p. 359-3642021DNSlab, Filter Cake Build-Up and Backwashing
32Modeling of the surface structure of needle felt filter media to simulate cake-forming dust filtration
DOI: 10.1002/cite.201900116
Zhang, Q.; Horst, D.; Schmidt, E.Chemie Ingenieur Technik 92, no. 3, p. 275-2812020DNSlab, Filter Cake Build-Up and Backwashing
31High-pressure reverse osmosis for the energy-efficient concentration of highly osmotic solutions: performance-limiting effects when using spiral wound elements.Kleffner, C.Doctoral Thesis, TH Köln / TU Kaiserslautern 2020DNSlab, Pressure Drop
30Evaluation of electrostatic properties of electret filters for aerosol deposition
DOI: 10.1026/j.seppur.2020.116548
Kerner, M. Schmidt, K.; Schumacher, S.; Puderbach, V.; Asbach, C; Antonyuk, S.Separation and Purification Technology 239, 1165482020DNSlab, Filtration Efficiency
29Ageing of electret filter media due to deposition of submicron particles - Experimental and numerical investigations
DOI: 10.1016/j.seppur.2020.117299
Kerner, M; Schmidt, K.; Schumacher, S.; Asbach, C.; Antonyuk, S.Separation and Purification Technology 251, 1172992020DNSlab, Filtration Efficiency
28Numerical and experimental investigation of filter cake formation during solid-liquid separation by resolved CFD-DEM couplingPuderbach, V.; Schmidt, K.; Antonyuk, S.FILTECH Proceedings2019DNSlab, Filter Cake Build-Up and Backwashing
27Numerical and experimental investigations on loading-dependent particle deposition in electret filter mediaKerner, M.; Schmidt, K.; Schumacher, S.; Asbach, C.; Antonyuk, S.FILTECH Proceedings2019DNSlab, Filtration Efficiency
263D simulation and experimental investigation of the coulomb effect in electret filtersKerner, M.; Schmidt, K.; Hellmann, A.; Schumacher, S.; Asbach, C.; Antonyuk, S.FILTECH Proceedings2018DNSlab, Filtration Efficiency
25Numerical and experimental study of submicron aerosol deposition in electret microfiber nonwovens
DOI: 10.1016/j.jaerosci.2018.05.004
Kerner, M.; Schmidt, K.; Hellmann, A.; Schumacher, S.; Pitz, M.; Asbach, C.; Ripperger, S.; Antonyuk, S.Journal of Aerosol Science 122, p. 32-442018DNSlab, Filtration Efficiency
24Methods for simulating cake filtrationHund, D.Doctoral Thesis, TU Kaiserslautern2018DNSlab, Filter Cake Build-Up and Backwashing
23Coupling of the Lattice-Boltzmann method and the discrete element method to model the separation of solid particles from liquids by porous mediaSchmidt, K.; Hund, D.; Ripperger, S.; Antonyuk, S.FILTECH Proceedings2018DNSlab, Filter Cake Build-Up and Backwashing
22Direct numerical simulation of cake formation during filtration with woven fabrics
DOI: 10.1016/j.cherd.2018.09.023
Hund, D.; Schmidt, K.; Ripperger, S.; Antonyuk, S.Chemical Engineering Research and Design 139, p. 26-332018DNSlab, Filter Cake Build-Up and Backwashing
21Ti surface modification by cold spraying with TiO2 microparticles
DOI: 10.1016/j.surfcoat.2016.10.091
Schmidt, K.; Buhl, S.; Davoudi, N.; Godard, C.; Merz, R.; Raid, I.; Kerscher, E.; Kopnarski, M.; Müller-Renno, C.; Ripperger, S.; Seewig, J.; Ziegler, C.; Antonyuk, S. Surface & Coatings Technology 309, p. 749-7582017Aerosol, Spray, Simulation
20Investigation of gas filtration with nonwovens and open foam structures, taking numerical flow simulation into accountHellmann, A.Doctoral Thesis, TU Kaiserslautern 2017DNSlab, Filtration Efficiency
19Simulation der Partikelabscheidung und des Druckverlustes von Schutz- und Filtertextilien bei einer GasdurchströmungHellmann, A.; Rief, S.; Schmidt, K.; Kocaman, R.T.; Aibibu, D.; Cherif, C.; Ripperger, S.; Antonyuk, S.F&S Filtrieren und Separieren 31, no. 4, p. 268-2742017DNSlab, Pressure Drop, Filtration Efficiency
18 Die deutsche Forschungslandschaft Ripperger, S.F&S Filtrieren und Separieren 31, no. 4, p. 278-2802017Filtration and Separation
17 Entwicklungen auf dem Gebiet der Filtrations- und Separationstechnik Ripperger, S.F&S Filtrieren und Separieren 31, no. 3, p. 150-1572017Filtration and Separation
163D DEM-CFD Simulation of the Formation of a Fixed Bed of Activated Carbon Grains, Air and Toluene Permeation and Toluene Adsorption DOI: 10.1002/cite.201500146Schmidt, K.; Ripperger, S.; Antonyuk, S.Chemie Ingenieur Technik 88, no. 3, p. 307-3122016DNSlab, Adsorption
15Investigation of depth filtration of aqueous suspensions with fleecePetersen, L.Doctoral Thesis, TU Kaiserslautern2016DNSlab, Filtration Efficiency
14Surface structuring of case hardened chain pins by cold-sprayed microparticles to modify friction and wear properties
DOI: 10.1016/j.partic.2014.10.001
Buhl, S.; Schmidt, K.; Sappok, D.; Merz, R.; Godard, C.; Kerscher, E.; Kopnarski, M.; Sauer, B.; Antonyuk, S.; Ripperger, S. Particuology 21, p. 32-402015Aerosol, Spray, Simulation
13 Entwicklung von Geweben als Filtermedien unter Berücksichtigung der numerischen StrömungssimulationRipperger, S.; Schmidt, K.F&S Filtrieren und Separieren 29, no. 6, p. 378-3812015DNSlab, Pressure Drop
12Characterization of an Open-Pored Nickel Foam with Respect to Aerosol Filtration Efficiency by Means of Measurement and Simulation.
DOI: 10.1080/02786826.2014.990555
Hellmann, A.; Pitz, M.; Schmidt, K.; Haller, F.; Ripperger, S.Aerosol Science and Technology 49, no. 1, p. 16-232015DNSlab, Filtration Efficiency
11Enhanced Analysis of Droplet Separation Efficiency of Knitted Wire Meshes by Optical Partice Counter Measurements and Direct Numerical Simulation based on Tomographies Schmidt, K.; Haller, F.; Hellmann, A.; Heikamp, W.; Ripperger, S.FILTECH Proceedings2015DNSlab, Filtration Efficiency
10Numerische Berechnung der Strömung und Partikelabscheidung in FiltrationsgewebenHund, D.; Schmidt, K.; Ripperger, S. F&S Filtrieren und Separieren 28, no. 4, p. 221-2252014DNSlab, Filter Cake Build-Up and Backwashing
9Generating Validated 3D Models of Microporous Ceramics
DOI: 10.1002/adem.201200097
Schmidt, K.; Becker, J. Advanced Engineering Materials 15, no. 1-2, p. 40-452013Ceramics, Pore Structure, Pressure Drop
8 Prozessintensivierung mit Membranen Ripperger, S.F&S Filtrieren und Separieren 27, no. 3, p. 132-1402013Filtration and Separation
7Modeling of NaCl aerosol deposition at electrically charged microfibers Schmidt, K.; Hellmann, A.; Pitz, M.; Ripperger, S.FILTECH Proceedings2013DNSlab, Filtration Efficiency
6 Herausforderung Produktentwicklung Ripperger, S.F&S Filtrieren und Separieren 27, no. 1, p. 16-182013Filtration and Separation
5Bestimmung der Abscheidewirkung von faserförmigen Filtermedien gegenüber ultrafeinen PartikelnHellmann, A; Schmidt, K.; Ripperger, S.; Thelen, C.; Möhlmann, C.Gefahrstoffe - Reinhaltung der Luft 72, no. 11-12, p. 484-4882012DNSlab, Filtration Efficiency
4Berechnung der Stauabscheidung in faserförmigen FiltermedienHellmann, A.; Schmidt, K.; Ripperger, S.F&S Filtrieren und Separieren 26, no. 6, p. 396-4042012DNSlab, Filtration Efficiency
3Dreidimensionale Modellierung von Filtermedien und Simulation der Partikelabscheidung auf der MikroskalaSchmidt, K.Doctoral Thesis, TU Kaiserslautern2011DNSlab, Filtration Efficiency
2Validating the simulation of diesel soot agglomerate deposition in microstructured filter media by means of microsieve examinatioinsSchmidt, K.; Ripperger, S.FILTECH Proceedings2011DNSlab, Filtration Efficiency
1Sinn und Zweck der Normung und Standardisierung auf dem Gebiet der SeparationstechnikRipperger, S.F&S Filtrieren und Separieren 25, no. 2, p. 90-952011Filtration and Separation