| Number | Title | Author | Journal | Year | Keywords |
|---|---|---|---|---|---|
| 37 | High-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. 1352-1358 | 2021 | DNSlab, Pressure Drop |
| 36 | Electret Filters — From the Influence of Discharging Methods to Optimization Potential DOI: 10.3390/atmos12010065 | Kerner, M.; Schmidt, K.; Schumacher, S.; Asbach, C.; Antonyuk, S. | Atmosphere 12(1), 65 | 2021 | DNSlab, Filtration Efficiency |
| 35 | 1 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-processes | Schmidt, K.; Puderbach, V.; Antonyuk, S. | FILTECH Proceedings | 2021 | DNSlab, Filter Cake Build-Up and Backwashing |
| 34 | A 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), 826 | 2021 | DNSlab, Filter Cake Build-Up and Backwashing |
| 33 | Evaluation of Tensile Adhesion Strength in Simulated Dust Cakes on Fabric Filters DOI: 10.1002/ceat.201900541 | Zhang, Q.; Horst, D.; Schmidt, E. | Chemical Engineering & Technology 44, no. 2, p. 359-364 | 2021 | DNSlab, Filter Cake Build-Up and Backwashing |
| 32 | Modeling 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. 275-281 | 2020 | DNSlab, Filter Cake Build-Up and Backwashing |
| 31 | High-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 | 2020 | DNSlab, Pressure Drop |
| 30 | Evaluation 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, 116548 | 2020 | DNSlab, Filtration Efficiency |
| 29 | Ageing 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, 117299 | 2020 | DNSlab, Filtration Efficiency |
| 28 | Numerical and experimental investigation of filter cake formation during solid-liquid separation by resolved CFD-DEM coupling | Puderbach, V.; Schmidt, K.; Antonyuk, S. | FILTECH Proceedings | 2019 | DNSlab, Filter Cake Build-Up and Backwashing |
| 27 | Numerical and experimental investigations on loading-dependent particle deposition in electret filter media | Kerner, M.; Schmidt, K.; Schumacher, S.; Asbach, C.; Antonyuk, S. | FILTECH Proceedings | 2019 | DNSlab, Filtration Efficiency |
| 26 | 3D simulation and experimental investigation of the coulomb effect in electret filters | Kerner, M.; Schmidt, K.; Hellmann, A.; Schumacher, S.; Asbach, C.; Antonyuk, S. | FILTECH Proceedings | 2018 | DNSlab, Filtration Efficiency |
| 25 | Numerical 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. 32-44 | 2018 | DNSlab, Filtration Efficiency |
| 24 | Methods for simulating cake filtration | Hund, D. | Doctoral Thesis, TU Kaiserslautern | 2018 | DNSlab, Filter Cake Build-Up and Backwashing |
| 23 | Coupling of the Lattice-Boltzmann method and the discrete element method to model the separation of solid particles from liquids by porous media | Schmidt, K.; Hund, D.; Ripperger, S.; Antonyuk, S. | FILTECH Proceedings | 2018 | DNSlab, Filter Cake Build-Up and Backwashing |
| 22 | Direct 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. 26-33 | 2018 | DNSlab, Filter Cake Build-Up and Backwashing |
| 21 | Ti 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. 749-758 | 2017 | Aerosol, Spray, Simulation |
| 20 | Investigation of gas filtration with nonwovens and open foam structures, taking numerical flow simulation into account | Hellmann, A. | Doctoral Thesis, TU Kaiserslautern | 2017 | DNSlab, Filtration Efficiency |
| 19 | Simulation der Partikelabscheidung und des Druckverlustes von Schutz- und Filtertextilien bei einer Gasdurchströmung | Hellmann, 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. 268-274 | 2017 | DNSlab, Pressure Drop, Filtration Efficiency |
| 18 | Die deutsche Forschungslandschaft | Ripperger, S. | F&S Filtrieren und Separieren 31, no. 4, p. 278-280 | 2017 | Filtration and Separation |
| 17 | Entwicklungen auf dem Gebiet der Filtrations- und Separationstechnik | Ripperger, S. | F&S Filtrieren und Separieren 31, no. 3, p. 150-157 | 2017 | Filtration and Separation |
| 16 | 3D 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.201500146 | Schmidt, K.; Ripperger, S.; Antonyuk, S. | Chemie Ingenieur Technik 88, no. 3, p. 307-312 | 2016 | DNSlab, Adsorption |
| 15 | Investigation of depth filtration of aqueous suspensions with fleece | Petersen, L. | Doctoral Thesis, TU Kaiserslautern | 2016 | DNSlab, Filtration Efficiency |
| 14 | Surface 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. 32-40 | 2015 | Aerosol, Spray, Simulation |
| 13 | Entwicklung von Geweben als Filtermedien unter Berücksichtigung der numerischen Strömungssimulation | Ripperger, S.; Schmidt, K. | F&S Filtrieren und Separieren 29, no. 6, p. 378-381 | 2015 | DNSlab, Pressure Drop |
| 12 | Characterization 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. 16-23 | 2015 | DNSlab, Filtration Efficiency |
| 11 | Enhanced 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 Proceedings | 2015 | DNSlab, Filtration Efficiency |
| 10 | Numerische Berechnung der Strömung und Partikelabscheidung in Filtrationsgeweben | Hund, D.; Schmidt, K.; Ripperger, S. | F&S Filtrieren und Separieren 28, no. 4, p. 221-225 | 2014 | DNSlab, Filter Cake Build-Up and Backwashing |
| 9 | Generating Validated 3D Models of Microporous Ceramics DOI: 10.1002/adem.201200097 | Schmidt, K.; Becker, J. | Advanced Engineering Materials 15, no. 1-2, p. 40-45 | 2013 | Ceramics, Pore Structure, Pressure Drop |
| 8 | Prozessintensivierung mit Membranen | Ripperger, S. | F&S Filtrieren und Separieren 27, no. 3, p. 132-140 | 2013 | Filtration and Separation |
| 7 | Modeling of NaCl aerosol deposition at electrically charged microfibers | Schmidt, K.; Hellmann, A.; Pitz, M.; Ripperger, S. | FILTECH Proceedings | 2013 | DNSlab, Filtration Efficiency |
| 6 | Herausforderung Produktentwicklung | Ripperger, S. | F&S Filtrieren und Separieren 27, no. 1, p. 16-18 | 2013 | Filtration and Separation |
| 5 | Bestimmung der Abscheidewirkung von faserförmigen Filtermedien gegenüber ultrafeinen Partikeln | Hellmann, A; Schmidt, K.; Ripperger, S.; Thelen, C.; Möhlmann, C. | Gefahrstoffe - Reinhaltung der Luft 72, no. 11-12, p. 484-488 | 2012 | DNSlab, Filtration Efficiency |
| 4 | Berechnung der Stauabscheidung in faserförmigen Filtermedien | Hellmann, A.; Schmidt, K.; Ripperger, S. | F&S Filtrieren und Separieren 26, no. 6, p. 396-404 | 2012 | DNSlab, Filtration Efficiency |
| 3 | Dreidimensionale Modellierung von Filtermedien und Simulation der Partikelabscheidung auf der Mikroskala | Schmidt, K. | Doctoral Thesis, TU Kaiserslautern | 2011 | DNSlab, Filtration Efficiency |
| 2 | Validating the simulation of diesel soot agglomerate deposition in microstructured filter media by means of microsieve examinatioins | Schmidt, K.; Ripperger, S. | FILTECH Proceedings | 2011 | DNSlab, Filtration Efficiency |
| 1 | Sinn und Zweck der Normung und Standardisierung auf dem Gebiet der Separationstechnik | Ripperger, S. | F&S Filtrieren und Separieren 25, no. 2, p. 90-95 | 2011 | Filtration and Separation |
