Dr.-Ing. Oleg Urazmetov

Research topics:

Publications / Proceedings

Publications

  • Urazmetov, O., Kerner, M., Dillenburger, T., Misiulia, D., Antonyuk S.: A CFD study of gas and particle motion in an aerosol generator operated by desublimation process, Chemical Engineering Research and Design (2021), https://doi.org/10.1016/j.cherd.2021.03.022
  • Urazmetov, O.; Cadet, M.; Teutsch, R.; Antonyuk, S.: Investigation of the flow phenomena in high-pressure water jet nozzles, Chemical Engineering Research and Design, 10.11.2020 doi.org/10.1016/j.cherd.2020.10.030
  • Teutsch R., Cadet M., Schindler C., Antonyuk S., Urazmetov O.: Eine Alternative zu konventionellen Bearbeitungsverfahren, Konstruktion (2019), doi.org/10.37544/0720-5953-2019-09-66

Presentations:

  • Urazmetov, O., Antonyuk, S.: Simulation der Strömung in Hochdruckdüsen und des Drall-induzierten Wasserstrahlzerfalls. Jahrestreffen der ProccesNet-Fachgruppen Mehrphasenströmungen, Mechanische Flüssigkeitsabtrennung sowie Zerkleinern und Klassieren. 21.02-22.02.2022 Online-Event
  • Urazmetov, O.; Cadet, M.; Teutsch, R.; Schindler, C.; Antonyuk, S.: Experimental and numerical study of a high-pressure waterjet. Ilass 2019, Paris, 02.09.-04.09.2019 DOI: 10.13140/RG.2.2.31832.65288
  • Urazmetov, O.: FIlterbauteil Simulation mit OpenFOAM unter Verwendung von DNSlab Ergebnissen, IT Seminar Filtertechnik, Mannheim, 23.05.2017
  • Urazmetov, O.; Schmidt, K.; Antonyuk, S.; Schneider, H.: CFD Simulation of a Degassing Process in the Silo, Relpowflo V, Skien, Norwegen, 13.06-15.06.2017

Poster:

  • Urazmetov, O., M. Cadet, R. Teutsch, C. Schindler, S. Antonyuk: Numerical simulation of a waterjet with primary breakup. Partec 2019, Nürnberg, 08.04. - 11.04.2019

Supervised Scientific Projects:

    BA: Bachelor thesis; DA: Diploma thesis; MA: Master thesis; PA: Projekt work; SA; Study project; TA: Team project

    • Untersuchung der Strömung in porösen Membranen mittels CFD-Methoden (MA)
    • Influence of flow inserts on high-pressure water jet nozzles - A comparative simulation using scale-resolving turbulence modelling (MA)
    • CFD simulation to study flow conditions in a ten-membrane cross-flow filtration module (SA).
    • Design of a scaled nozzle for aerodynamic focusing (SA)
    • CFD simulation of porous media with OpenFOAM (SA)
    • Development and design of a coffee grinder with integrated weighing unit (PA)
    • Scaling of a two-substance nozzle for aerodynamic focusing using enveloping air (PA)
    • Development and design of an underwater propulsion system for use on reactor pool bottoms in nuclear power plants (DA)
    • Investigation of the inflow conditions of a cross-flow filtration plant using CFD methods (PA)
    • Investigation of the influence of process dispersion of a pneumatic leakage test of poppet valves in comparison to hydraulic leakage measurement (BA)
    • CFD simulation of high pressure water jet flow and particle induced wear of nozzles (MA)