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Department of Applied Mathematics and Theoretical Physics

 

Career

  • 2015-date: Research associate in Fluid mechanics, University of Cambridge
  • 2012-2015: PhD, University of Cambridge
  • 2010-2011: Diploma in Mathematics, Friedrich-Alexander-University of Erlangen-Nuremberg
  • 2009-2010: Part III of the Mathematical Tripos, University of Cambridge
  • 2006-2009: Undergraduate studies in Mathematics and Physics, Friedrich-Alexander-University of Erlangen-Nuremberg

Research

Daria is a member of the Environmental and Industrial Fluid dynamics research group. Her current research interests are multiphase plumes in a stratified rotating environment.

Selected Publications

  • Frank D., Linden P. F., "The effectiveness of an air curtain in the doorway of a ventilated building", Journal of Fluid Mechanics, 2014, vol 756, pp 130-164
  • Frank D., Linden P. F., "The effects of an opposing buoyancy force on the performance of an air curtain in the doorway of a building", Energy and Buildings, 2015, vol 96, pp 20–29

Publications

Bubble curtains used as barriers across horizontal density stratifications
A Bacot, D Frank, PF Linden
– Journal of Fluid Mechanics
(2022)
941,
a1
Plumes in rotating fluid and their transformation into tornados
BR Sutherland, Y Ma, MR Flynn, D Frank, PF Linden, D Lemasquerier, M Le Bars, C Pacary, T Jamin, T Dauxois, S Joubaud
– Journal of Fluid Mechanics
(2021)
924,
a15
Effects of background rotation on the dynamics of multiphase plumes
D Frank, JR Landel, SB Dalziel, PF Linden
– Journal of Fluid Mechanics
(2021)
915,
a2
Anticyclonic precession of a plume in a rotating environment
D Frank, JR Landel, SB Dalziel, PF Linden
– Geophysical Research Letters
(2017)
44,
9400
The effects of an opposing buoyancy force on the performance of an air curtain in the doorway of a building
D Frank, PF Linden
– Energy and Buildings
(2015)
96,
20
The effectiveness of an air curtain in the doorway of a ventilated building
D Frank, PF Linden
– Journal of Fluid Mechanics
(2014)
756,
130

Research Group

Environmental and Industrial Fluid Dynamics

Room

H0.13