IHE / Employees / Retired or collaborators / Anglart Henryk

Henryk Anglart

Prof., PhD, Docent, Division of Power Engineering e-mail: henryk@kth.se tel. +46 73 776 2491

  Professor Division of Power Engineering

Membership of professional bodies

  • Member of Editorial Board of „Journal of Power Technologies”
  • Member of Scientific Council of  „Energetyka”
  • Member of Editorial Board of „Nukleonika”
  • Member of Editorial Board of „Instal”
  • Member of Editorial Board of „Journal of Computational Multiphase Flows”
  • Member of Editorial Board of „Multiphase Science and Technology”
  • Member of „European Atomic Energy Society

Key research topics

    • Heat transfer in nuclear reactors
    • Multiphase flows with heat transfer
    • Critical heat flux in boiling water reactors
    • CFD modelling of multiphase flows
    • Numerical and experimental investigation of post-CHF
    • Condensation in presence of non-condensable gases
    • Dynamics and stability of nuclear reactors
    • Experimental and numerical investigation of thermal mixing at elevated pressures
    • Heat transfer to supercritical fluids
    • Heat transfer to liquid metals
    • Thermal-hydraulic design on nuclear fuel assemblies

Teaching courses

In KTH

  • Sustainable Energy Transformation
  • Thermal-Hydraulics in Nuclear Systems
  • Nuclear Reactor Technology

In ITC

  • ANS666 – Nuclear Reactor Physics
  • ANS670 – GenIV Nuclear Reactor Systems (HTR, FBR)

 

Proposed topics of diploma thesis

  • Thermal-hydraulics of nuclear reactors
  • Design of nuclear fuel assemblies
  • Dynamics and stability of nuclear reactors
  • Multiphase flows with heat transfer
  • Modelling of multiphase flows in nuclear reactors
  • Design of Gen-IV reactors
  • Safety analyses of nuclear reactors

 

 

Most important publications during last 5 years

(a)   In international journals

[1]       Li, H. and Anglart, H., “CFD model of diabatic annular two-phase flow using the Eulerian-Lagrangian approach,” Annals of Nuclear Energy, 77:415-424, 03/2015.

[2]       Pegonen R., Bourdon S, Gonnier C. and Anglart, H., “Hot fuel element thermal-hydraulics in the Jules Horowitz Reactor,” Nuclear Engineering and Design, vol. 300, pp. 149-160, 2016.

[3]       Pegonen R., Bourdon S, Gonnier C. and Anglart, H., “Hydraulic modeling of the Jules Horowitz Reactor: Mass flow split between 36 fuel elements,” Nuclear Engineering and Design, vol. 308, pp. 9-19, 2016.

[4]       Li, H. and Anglart, H., “Modeling of annular two-phase flow using a unified CFD approach,” Nuclear Engineering and Design, vol. 303, pp. 17-24, 2016.

[5]       Li, H. and Anglart, H., “Prediction of dryout and post-dryout heat transfer using a two-phase CFD model,” Int. J. Heat and Mass Transfer, vol. 99, pp. 839-850, 2016.

[6]       Li, H. and Anglart, H., “CFD prediction of droplet deposition in steam-water annular flow with flow obstacle effects,” Nuclear Engineering and Design, vol. 321, pp. 173-179, 2017.

[7]       Bergagio, M., Thiele, R. and Anglart, H., “Analysis of temperature fluctuations caused by mixing of non-isothermal water streams at elevated pressure,” Int. J. Heat and Mass Transfer, vol. 104, pp. 979-992, 2016.

[8]       Pegonen R., Bourdon S, Gonnier C. and Anglart, H., “An improved thermal-hydraulic modelling of the Jules Horowitz Reactor using CATHARE2 system code,” Nuclear Engineering and Design, vol. 311, pp. 156-166, 2017.

[9]       Bergagio, M. and Anglart, H., “Experimental investigation of mixing of non-isothermal water streams at BWR operating conditions,” Nuclear Engineering and Design, vol. 317, pp. 158-176, 2017.

[10]     Spirzewski, M. and Anglart, H., “An improved phenomenological model of annular two-phase flow with high-accuracy dryout prediction capability,” Nuclear Engineering and Design, vol. 331, pp. 176-185, 2018.

[11]     Bergagio, M., Li, H. and Anglart, H., “An iterative algorithm for solving two-dimensional nonlinear inverse heat conduction problem,” Int. J. Heat and Mass Transfer, vol. 126, pp. 281-292, 2018.

[12]     Anglart, H., Li, H. and Niewinski, G., “Mechanistic modelling of dryout and post-dryout heat transfer,” Energy, vol. 161, pp. 352-360, 2018.

[13]      Fan, W., Li, H. and Anglart, H., “Numerical investigation of spatial and temporal structure of annular flow with disturbance waves,” ,” Int. J. of Multiphase Flow, vol. 110, pp. 256-272, 2019.

[14]      Anglart, H., “Progress in understanding and modelling of annular two-phase flow with heat transfer,” Nuclear Engineering and Design, vol. 345, pp. 166-182, 2019.

[15]      Li, H. and Anglart, H., “Dryout prediction with CFD model of annular two-phase flow,” Nuclear Engineering and Design, vol. 349, pp. 20-26, 2019.

[16]      Spirzewski, M., Anglart, H. and Stano, P.M., “Uncertainty and sensitivity analysis of a phenomenological dryout model implemented in DARIA system code,” Nuclear Engineering and Design, vol. 355, 2019.

[17]      Bergagio, M., Fan, W., Thiele, R. and Anglart, H., “Large eddy simulation of thermal mixing with conjugate heat transfer at BWR operating conditions,” Nuclear Engineering and Design, available online 15 October 2019.

(b)  In conference proceedings

[18]      Pegonen R., Bourdon S, Gonnier C. and Anglart, H., “Hot fuel element thermal-hydraulic modelling in the Jules Horowitz reactor nominal and LOFA conditions,” Proc. 16th Int. Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-16), Chicago, Il., USA, Aug. 30 – Sept. 4, 2015.

[19]      Bergagio M., Hedberg S., Rydström S. and Anglart, H., “Instrumentation for temperature and heat flux measurement on a solid surface under BWR operating conditions,” Proc. 16th Int. Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-16), Chicago, Il., USA, Aug. 30 – Sept. 4, 2015.

[20]      Anglart H, Bergagio M., Hedberg S., Rydström S. and Frid, W., “Measurement of wall temperature fluctuations during thermal mixing of non-isothermal water streams,” Proc. 16th Int. Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-16), Chicago, Il., USA, Aug. 30 – Sept. 4, 2015.

[21]      Anglart H., “Current trends in CHF predictions: from correlations to simulations,” Proc. Int. Seminar on Subchannel Analysis (ISACC-2015), Shenzhen, China, Dec. 6-8, 2015.

[22]      Kromer, H., Laneryd, T., Anglart H., Al-Maeeni, L. and Bel Fdhila, R. “Experimental Investigation of Flow Nucleate Boiling Heat Transfer in a Vertical Minichannel,” Proc. 1st Pacific Rim Thermal Eng. Conf. (PRTEC), Hawaii’s Big Island, USA, March 13-17, 2016.

[23]      Anglart H., Bergagio, M. and Thiele, R. “Experimental and Numerical Investigations of Wall Temperature Fluctuations due to Thermal Mixing in an Annulus,” Proc. 1st Pacific Rim Thermal Eng. Conf. (PRTEC), Hawaii’s Big Island, USA, March 13-17, 2016.

[24]      Anglart H., “Recent Advances in Heat Transfer Research and Modelling,” Keynote Presentation at 6th Int. Conf. and Workshop, Budova, Montenegro, May 18-20, 2016.

[25]      Anglart H., Kromer, H., Fonellosa, A., Laneryd, T. and Bel Fdhila, R. “Measurement of Ebullition Cycle Characteristics in Subcooled Nucleate Boiling of Water Flowing in a Narrow Vertical Gap,” Int. Conf. Multiphase Flow (ICMF-2016), Firenze, Italy, May 22-27, 2016.

[26]      Anglart H., “Current challenges in numerical modelling of single- and multiphase flows and heat transfer,” Keynote Presentation at 7th Int. Conf. and Workshop, REMOO-2017, Venice, Italy, May 10-12, 2017.

[27]      Bergagio, M. and Anglart H., ”Measurement of wall temperature oscillations due to mixing of water streams at high temperatures and pressures,” proc. 9th World Conf. on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, Iguazu Falls, Brazil, 12-15 June 2017.

 [28]     Anglart H., “CFD Modelling of Annular Two-Phase Flow and Heat Transfer,”  Keynote paper, Proc. 17th Int. Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-17), Xi’an, China, Sept. 2-8, 2017.

[29]      Anglart H., “CFD Modelling of Annular Two-Phase Flow for Dryout Predictions,”  Proc. 17th Int. Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-17), Xi’an, China, Sept. 2-8, 2017.

[30]      Anglart H. and Li, H., “Mechanistic modelling of dryout and post-dryout heat transfer,” proc. 8th Conf. on Research and Development in Power, Warsaw, Poland, 28 November – 1 December, 2017.

[31]      Fan, W., Li, H. and Anglart H., ”Disturbance wave characteristics in two-phase annular flows,” 8th European-Japanese Two-Phase Flow Group Meeting, the Watson Hotel, Manhattan, New York, USA, 22-26 April, 2018.

[32]      Fan, W., Cherdantsev, Li, H. and Anglart H., ”A physical understanding of droplet entrainment in annular flow based on numerical data,” 10th International Conference on Multiphase Flow, ICMF-10, Rio de Janeiro, Brazil, May 19-24, 2019.

[33]      Fan, W., Li, H. and Anglart H., ”Prediction of annular two-phase flow with heat transfer,” 18th International Topical Meeting on Nuclear Reactor Thermal-hydraulics, NURETH-18, Portland, OR, August 18-23, 2019.

Most important research and development projects in last  5 years

  • Project manager: „Experimental investigation of internal structure of multiphase flow with heat transfer at high pressures,” KTH; project running through 2018-2021.
  • Project manager: „Development of CFD models of annular two-phase flow with heat transfer,” KTH; project running through 2012-2018.
  • Sub-project manager: European Union research project THINS: Heat transfer to non-unity Pr fluids; project running through 2012-2016

Most important expertise studies, patents, etc. in last 5 years

  • Reviewer of promotion of dr Martin Rohde, Delft University of Technology, the Nederlands, March 2016.
  • Reviewer appointed by the Swiss National Science Foundation, June 2017.
  • Reviewer of promotion of dr Filip Toumisto to the full professor position, Aalto University, Finland, 2018.
  • Reviewer of promotion of dr Yann Bartosiewicz to the full professor position, UCL, Louvain, Belgium, 2019.

Organization activities

  • Director of the Nuclear Technology Centre at KTH
  • Head of Reactor Technology Division in Physics Department during 2004-2017, KTH
  • Deputy head of Physics Department during 2012-2017, KTH

Awards

G. Westinghouse Award of Excellence, 2001