Wykaz publikacji wybranego autora

Elżbieta Fornalik-Wajs, dr hab. inż., prof. AGH

profesor nadzwyczajny

Wydział Energetyki i Paliw
WEiP-kppe, Katedra Podstawowych Problemów Energetyki


  • 2018

    [dyscyplina 1] dziedzina nauk inżynieryjno-technicznych / inżynieria środowiska, górnictwo i energetyka


[poprzednia klasyfikacja] obszar nauk technicznych / dziedzina nauk technicznych / energetyka


Identyfikatory Autora Informacje o Autorze w systemach zewnętrznych

ORCID: 0000-0003-2712-9309 orcid iD

ResearcherID: C-6551-2013

Scopus: 36659195600

PBN: 5e70922c878c28a04739124e

OPI Nauka Polska

System Informacyjny AGH (SkOs)




1
  • A numerical analysis of the thermal effects in the jet impingement stagnation zone
2
  • An analysis of the influence of a strong magnetic field gradient on paramagnetic fluid natural convection processes in a concentric annuli
3
  • An analysis of unsteady thermal convection of paramagnetic fluid in cubical enclosure under strong magnetic field gradient
4
  • An analysis of unsteady thermal convection of paramagnetic fluid in cubical enclosure under strong magnetic field gradient
5
  • Analiza numeryczna wpływu silnego pola magnetycznego na konwekcję cieczy paramagnetycznej w naczyniu sześciennym
6
  • Analysis of diamagnetic nanofluid heat transfer in the presence of magnetic field
7
  • Analysis of the influence of a strong magnetic field gradient on convection process of paramagnetic fluid in the annulus between horizontal concentric cylinders
8
  • Approach to novel design of $CO_{2}$ based centrifugal compressor
9
  • Array of minijets – thermal and hydraulic phenomena in boundary layer
10
  • Asymmetrical thermal boundary condition influence on the flow structure and heat transfer performance of paramagnetic fluid-forced convection in the strong magnetic field
11
12
13
  • Compressor efficiency in the light of blade-fluid thermal interaction
14
  • Curved surface minijet impingement phenomena analysed with $\zeta-f$ turbulence model
15
  • Effect of a magnetic field on the convection of paramagnetic fluid in unstable and stable thermosyphon-like configurations
16
  • Evaluation of colour space transformation suitability to optical temperature measurements
17
  • Evaluation of diamagnetic nanofluid ability to heat transfer in the strong magnetic field
18
  • Experimental analysis of the heat transfer phenomena in an annular enclosure
19
  • Experimental analysis of velocity and temperature fields in a system similar to the Czochralski method of single crystal growth
20
21
22
  • Experimental investigations of jet flows
23
  • Experimental simulation of mixed convection
24
25
  • Extend of magnetic field interference in the natural convection of diamagnetic nanofluid