Institute of Particle Process Engineering

Ass. Prof. Dr. Dzmitry Misiulia

Contact information

Building 44, Room 467

Tel.: +49 (0) 631 205-4051

Fax.: +49 631 205 3055

Email: Dzmitry.misiulia(at)mv.uni-kl.de

 

Work Experience

  • Since 09/2019    Alexander von Humboldt Guest Experienced Researcher at the Institute of Particle Process Engineering, TU Kaiserslautern,
  • Georg Forster Research Fellow (Alexander von Humboldt Foundation).
  • Project “High-efficient separation of particle-laden gas flows in a turbulent centrifugal field considering particle agglomeration”
  • 06/2017 – 09/2019    Associate Professor, Department of Machines and Apparatus for Chemical and Silicate Production (DMACSP), Chemical Technology and Engineering Faculty (CTEF), Educational institution “Belarusian State Technological University” (BSTU), Minsk, Belarus
  • An academic (scientific) title of “Docent” was awarded in June 21, 2017.
  • 03/2017 – 05/2017    Assistant Professor, DMACSP, CTEF, BSTU
  • 09/2016 – 02/2017    Guest senior researcher, Division of Fluid and Experimental Mechanics (DFEM), Department of Engineering Sciences and Mathematics (DESM), Luleå University of Technology (LTU), Luleå, Sweden
  • Swedish Institute scholarship holder within the Visby Programme
  • 09/2015 – 08/2016    Assistant Professor, DMACSP, CTEF, BSTU
  • 09/2014 – 08/2015    Guest postdoctoral researcher, DFEM, DESM, LTU
  • Swedish Institute scholarship holder within the Visby Programme
  • 09/2013 – 08/2014    Senior Lecturer, DMACSP, CTEF, BSTU
  • 11/2011 – 08/2013    Assistant Lecturer, DMACSP, CTEF, BSTU
  • 09/2010 – 06/2011    Assistant Lecturer (quarter-time job, 50%), Department of Processes and Apparatus of Chemical Production (DPACP), CTEF, BSTU

Education and Training

  • 01.05.2018 – 04.05.2018    Bergen MSCA-IF Master Class, Bergen, Norway
  • 20.02.2018 – 21.02.2018    HORIZON 2020 week in Belarus, Minsk
  • 29.11.2017 – 12.12.2018    Training at the Chair of Particle Process Engineering, University of Kaiserslautern, Germany (MOST project)
  • 07.10.2013 – 10.10.2013    OpenFOAM training (user and advanced level training), Prague, Czech Republic
  • 11/2008 – 10/2011    PhD student, specialization “Processes and apparatus of chemical technology”, DPACP, CTEF, BSTU
  • Doctorate degree in process engineering.
  • Thesis: “Reducing pressure drop and dust loss in cyclone separators by means of static untwisting devices”
  • 09/2007 – 06/2008    Master student, specialization “Processes and apparatuses of chemical technology”, DPACP, CTEF, BSTU
  • Master’s degree in process engineering
  • 09/2002 – 06/2007    Student, specialization “Machines and apparatuses for chemical production and building materials enterprises”, CTEF, BSTU
  • Diploma degree in mechanical engineering

Publications in peer-reviewed scientific journals

(all journal abbreviations follow the recommendations published by CAS Source Index (CASSI)):

 

  1. Jafari, P.H., Misiulia, D., Hellström, J.G.I., Gebart, R. (2019): Modeling of particle-laden cold flow in a cyclone gasifier. In: J. Fluids Eng., Vol. 141 (2), p. 021302-1 – 021302-13.
  2. 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. In: Powder Technol., Vol. 336, p. 45–56.
  3. 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. In: Sep. Purif. Technol., Vol. 185, p. 10–23.
  4. Misiulia, D., Andersson, A.G., Lundström, T.S. (2017): Large Eddy Simulation investigation of an industrial cyclone separator fitted with a pressure recovery deswirler. In: Chem. Eng. Technol., Vol. 40 (4), p. 709–718.
  5. 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. In: Powder Technol., Vol. 305, p. 48–55.
  6. Misiulia, D.I., Kuzmin, V.V., Petrov, O.A. (2016): Experimental and numerical calculation of pressure drop in a high-efficiency cyclone STsN-40. In: Proceedings of BSTU, Vol. 185 (3), p. 154–160.
  7. 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. In: Chem. Eng. Res. Des., Vol. 102, p. 307–321.
  8. Misiulia, D., Andersson, A.G., Lundström, T.S. (2015): Computational investigation of an industrial cyclone separator with helical-roof inlet. In: Chem. Eng. Technol., Vol. 38 (8), p. 1425–1434.
  9. Misiulia, D.I., Protasov, S.K. (2014): Experimental research of regular packing for mass-transfer towers. In: Proceedings of BSTU, Vol. 166 (3), p. 117–120.
  10. Misiulia, D.I., Kuzmin, V.V., Markov, V.A. (2013): Developing an untwisting device for cyclones and estimating its parameters. In: Theor. Found. Chem. Eng., Vol. 47 (3), p. 274–283.
  11. Misiulia, D.I., Vaytekhovich, P.E., Kuzmin, V.V., Karpov, K.A. (2013): Dedusting of the gases outgoing from the glass manufacturing furnace. In: Proceedings of BSTU, Vol. 159 (3), p. 150–156.
  12. Misiulia, D.I., Kuzmin, V.V., Markov, V.A. (2012): Comparative analysis of technical characteristics of cyclone dust collectors. In: Proceedings of BSTU, Vol. 150 (3), p. 145–154.
  13. Misiulia, D.I., Kuzmin, V.V., Markov, V.A. (2012): The feasibility grounds for using of untwisting devices in cyclones. In: Proceedings of BSTU, Vol. 150 (3), p. 155–159.
  14. Misiulia, D.I. (2012): New designs of devices for a decrease in power consumption of cyclone dust collectors. In: Russ. J. of Non-Ferrous Metals, Vol. 53 (1), p. 67–72.
  15. Misiulia, D.I., Kuzmin, V.V., Markov, V.A. (2010): Reduction of hydraulic drag of cyclones. In: Russ. J. Appl. Chem., Vol. 83 (10), p. 1827–1830.
  16.  Misiulia, D.I. (2010): Cone lamellated baffle with guide plates. In: Russ. J. Appl. Chem., Vol. 83 (9), p. 1676–1678.
  17. Misiulia, D.I., Kuzmin, V.V., Markov, V.A. (2010): Use of a deswirling device to reduce the hydraulic resistance of cyclones. In: Chem. Pet. Eng., Vol. 46 (3–4), p. 121–124.
  18. Misiulia, D.I., Borovik, A.A., Protasov, S.K. (2009): Conic plate deflector. In: Russ. J. Appl. Chem., Vol. 82 (4), p. 696–698.
  19. Misiulia, D., Antonyuk, S., Andersson, A.G., Lundström, T.S.: High-efficiency industrial cyclone separator: a CFD study, Powder Technology (2019), https://doi.org/10.1016/j.powtec.2019.10.064
  20. 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

 

Scholarships and Awards

 

  1. Georg Forster Research Fellowship for Experienced Researchers (1 October 2019 – 31 March 2021).
  2. Scholarship of the President of the Republic of Belarus to talented young scientists 2018 (1 January 2018 – 31 Decemer 2018).
  3. Swedish Institute scholarship within Visby Programme for guest research (as a senior scientist) for a period of 6 months (1 September 2016 – 28 February 2017).
  4. Swedish Institute scholarship within Visby Programme for postdoctoral research for a period of 12 months (1 September 2014 – 31 August 2015).
  5. German Academic Exchange Service (DAAD) scholarship for PhD students and young scientists for a period of 10 months (1 October 2014 – 31 July 2015) and two-month German language course (1 August 2014 – 30 September 2014) (not realized).
  6. The letter of commendation of Educational institution “Belarusian State Technological University” for the considerable contribution to working out of new scientific directions and for high rates in development of science and innovative activity (2012).

 

 

 

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