Institute of Particle Process Engineering

Ass. Prof. Dr. Dzmitry Misiulia

Contact information

Building 44, Room 456

Tel.: +49 (0)631 205 3035

Fax.: +49 631 205 3055

Email: Dzmitry.misiulia[at]mv.uni-kl.de

Work Experience

  • Since 04/2022            Researcher, Institute of Particle Process Engineering, TU Kaiserslautern, Germany
  • 10/2019 – 03/2022    Guest experienced researcher (Alexander von Humboldt fellowship holder), Institute of Particle Process Engineering, TU Kaiserslautern, Germany
  • 09/2018 – 09/2019    Senior researcher, Department of Machines and Apparatus for Chemical and Silicate Production (DMACSP), Chemical Technology and Engineering Faculty (CTEF), Belarusian State Technological University (BSTU), Minsk, Belarus
  • 09/2015 – 08/2018    Associate Professor, DMACSP, CTEF, BSTU, Minsk, Belarus
  • 09/2016 – 02/2017    Guest senior researcher (Swedish Institute scholarship holder), Division of Fluid and Experimental Mechanics (DFEM), Department of Engineering Sciences and Mathematics (DESM), Luleå University of Technology (LTU), Luleå, Sweden
  • 09/2013 – 09/2015    Senior Lecturer, DMACSP, CTEF, BSTU, Minsk, Belarus
  • 09/2014 – 08/2015    Guest postdoctoral researcher (Swedish Institute scholarship holder), DFEM, DESM, LTU, Luleå, Sweden
  • 11/2011 – 08/2013    Assistant Lecturer, DMACSP, CTEF, BSTU, Minsk, Belarus
  • 09/2010 – 06/2011    Assistant Lecturer (50% part-time job), Department of Process and Apparatus of Chemical Production (DPACP), CTEF, BSTU, Minsk, Belarus

Scientific Record

  • 21.06.2017    Academic/scientific title of "Docent", Belarus
  • 30.01.2012    Letter of commendation for the considerable contribution to working out of new scientific directions and for high rates in development of science and innovative activity, BSTU, Minsk, Belarus
  • 28.12.2011    Ph.D. in Technical Sciences, BSTU, Minsk, Belarus

Education

  • 11/2008 – 10/2011    Ph.D., BSTU, Minsk, Belarus
  • 09/2007 – 06/2008    Master of Science, BSTU, Minsk, Belarus
  • 09/2002 – 06/2007    Diploma in mechanical engineering, BSTU, Minsk, Belarus.


Fellowships and Scholarships

  • 01.10.2019 – 31.03.2022    Georg Forster Research Fellowship for experienced researchers (Alexander von Humboldt Foundation)
  • 01.01.2018 – 31.12.2018    Scholarship of the President of the Republic of Belarus to talented young scientists 2018
  • 01.09.2016 – 28.02.2017    Swedish Institute scholarship within the Visby Programme (senior research)
  • 09.05.2016 – 05.06.2016    VINNMER Incoming – planning grant from innovation agency in Sweden VINNOVA
  • 01.09.2014 – 31.08.2015    Swedish Institute scholarship within the Visby Programme (postdoctoral research)
  • 01.10.2014 – 31.07.2015    German Academic Exchange Service (DAAD) scholarship for PhD students and young scientists


Training

  • 04.10.2021 – 05.10.2021    Best Practice Guidance Seminar "CFD for Dispersed Multi-Phase Flows 2021 (with problem shooting session)", Sapienza Università di Roma, Rome, Italy
  • 23.09.2020 – 24.09.2020    Palas® Air Filtration Seminar 2020, Frankfurt am Main, Germany
  • 25.11.2018 – 15.12.2018    Department of Environmental Science and Analytical Chemistry at Stockholm University, and Division of Fluid and Experimental Mechanics at Luleå University of Technology, Sweden (MOST project)
  • 01.05.2018 – 04.05.2018    Bergen MSCA-IF Master Class, University of Bergen, Norway
  • 20.02.2018 – 21.02.2018    HORIZON 2020 week in Belarus, Minsk
  • 29.11.2017 – 12.12.2017    Institute of Particle Process Engineering, Department of Mechanical and Process Engineering, TU Kaiserslautern, Germany (MOST project)
  • 07.10.2013 – 10.10.2013    OpenFOAM training (user and advanced level), Prague, Czech Republic
  • 23.01.2012 – 27.01.2012    JSC Mozyr Oil Refinery, Mozyr, Belarus


Publications

  1. Misiulia, D., Lidén, G., Antonyuk, S. (2022). Performance characteristics of a small scale cyclone separator operated in different flow regimes. Journal of Aerosol Science 163, 105980. doi.org/10.1016/j.jaerosci.2022.105980
  2. Antonyuk, S., Kerner, M., Misiulia, D., (2022). Study of a test air ventilation system for reducing aerosol dispersion in classrooms installed at the Otto-Hahn-Gymnasium in Landau. Filtration and Separation (International Edition), 38–42. www.fs-journal.de
  3. Misiulia, D., Lidén, G., Antonyuk, S. (2021). Evolution of turbulent swirling flow in a small-scale cyclone with increasing flow rate: A LES study. Flow, Turbulence and Combustion 107, 575–608. doi.org/10.1007/s10494-021-00253-2
  4. Urazmetov, O., Kerner, M., Dillenburger, T., Misiulia, D., Antonyuk, S. (2021). A CFD study of gas and particle motion in an aerosol generator operated by desublimation process. Chemical Engineering Research and Design 169, 229–238. doi.org/10.1016/j.cherd.2021.03.022
  5. Misiulia, D., Antonyuk, S., Andersson, A.G., Lundström, T.S. (2020). High-efficiency industrial cyclone separator: A CFD study. Powder Technology 364, 943–953. doi.org/10.1016/j.powtec.2019.10.064
  6. Jafari, P.H., Misiulia, D., Hellström, J.G.I., Gebart, B.R. (2019). Modeling of particle-laden cold flow in a cyclone gasifier. Journal of Fluids Engineering 141 (2), 021302. doi.org/10.1115/1.4040929
  7. Kuz’min, V.V., Misiulia, D. (2019). Economic efficiency of energy-saving devices in cyclones. Chemical and Petroleum Engineering 54, 935–939. doi.org/10.1007/s10556-019-00574-0
  8. Misiulia, D., Antonyuk, S., Andersson, A.G., Lundström, T.S. (2018). Effects of deswirler position and its centre body shape as well as vortex finder extension downstream on cyclone performance. Powder Technology 272, 14–22. doi.org/10.1016/j.powtec.2018.05.034
  9. Misiulia, D., Elsayed, K., Andersson, A.G. (2017). Geometry optimization of a deswirler for cyclone separator in terms of pressure drop using CFD and artificial neural network. Separation and Purification Technology 185, 10–23. doi.org/10.1016/j.seppur.2017.05.025
  10. Misiulia, D., Andersson, A.G., Lundström, T.S. (2017). Large Eddy Simulation investigation of an industrial cyclone separator fitted with a pressure recovery deswirler. Chemical Engineering and Technology 40(4), 709–718. doi.org/10.1002/ceat.201600505
  11. Misiulia, D., Andersson, A.G., Lundström, T.S. (2017). Effects of the inlet angle on the collection efficiency of a cyclone with helical-roof inlet. Powder Technology 305, 48–55. doi.org/10.1016/j.powtec.2016.09.050
  12. Misiulia, D., Kuz’min, V.V., Petrov, O.A. (2016). Experimental and numerical calculation of pressure drop in a high-efficiency cyclone STsN-40. Proceedings of BSTU. No. 3, 154–160.
  13. Misiulia, D., Andersson, A.G., Lundström, T.S. (2015). Effects of the inlet angle on the flow pattern and pressure drop of a cyclone with helical-roof inlet. Chemical Engineering Research and Design 102, 307–321. doi.org/10.1016/j.cherd.2015.06.036
  14. Misiulia, D., Andersson, A.G., Lundström, T.S. (2015). Computational investigation of an industrial cyclone separator with helical-roof inlet. Chemical Engineering and Technology 38 (8), 1425–1434. doi.org/10.1002/ceat.201500181
  15. Misiulia, D., Protasov, S.K. (2014). Experimental research of regular packing for mass-transfer towers. Proceedings of BSTU. No. 3, 105–108.
  16. Misiulia, D., Kuz’min, V.V., Markov, V.A. (2013). Developing an untwisting device for cyclones and estimating its parameters. Theoretical Foundations of Chemical Engineering 47 (3), 274–283. doi.org/10.1134/S004057951303007X
  17. Misiulia, D., Vaitsiakhovich, P.E., Kuzmin, V.V., Karpov, K.A. (2013). Dedusting of the gases outgoing from the glass manufacturing furnace. Proceedings of BSTU. No. 3, 150–156.
  18. Khalil, W., Al-Saedi, M.J., Misiulia, D. (2013). Study of hydraulic resistance and effectiveness of a valve collar of new design. Vestnik of PSU. No. 3, 172–175.
  19. Misiulia, D. (2012). New designs of devices for a decrease in power consumption of cyclone dust collectors. Russian Journal of Non-Ferrous Metals 53 (1), 67–72. doi.org/10.3103/S1067821212010166
  20. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2012). The feasibility grounds for using of untwisting devices in cyclones. Proceedings of BSTU. No. 3, 155–159.
  21. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2012). Comparative analysis of technical characteristics of cyclone dust collectors. Proceedings of BSTU. No. 3, 145–154.
  22. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2012). Decrease in energy and economic expenses when using cyclones of NIIOGAZ. Energy efficiency. No. 4, 14–16.
  23. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2011). Ways of decrease in  power consumption of cyclone separators. International scientific journal for alternative energy and ecology 96 (4), 74–88.
  24. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2011). Reducing energy consumption and increasing efficiency of cyclones. Proceedings of CIS higher education institutions. Energy Problems. No. 11-12, 130–138.
  25. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2011). Studying of influence of number and height of blades of the deswirling device on decrease in pressure drop of cyclones. Chemical Industry Today. No. 10, 52–56.
  26. Kuzmin, V.V., Misiulia, D., Markov, V.A. (2011). Reserves of decrease in energy consumption in gas purification and ventilation systems. Energy – Proceedings of CIS higher education institutions and power engineering associations. No. 6, 66–72.
  27. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2011). Application of the blade untwisting device in cyclone dust collectors. Proceedings of BSTU. No. 3, 162–169.
  28. Misiulia, D., Kuzmin, V.V., Markov, V.A. (2011). Design philosophy of untwisting devices for cyclones. Proceedings of BSTU. No. 3, 153–161.
  29. Misiulia, D. (2011). Determination of pressure losses connected with rotary movement of flow at cyclone outlet. Proceedings of higher education institutions. Chemistry and Chemical Engineering 54 (10), 123–126.
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