Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
hairy surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between
-
surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between hair’s
-
processes at play when droplets interact with soft hairy surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure
-
to record bifurcations which occurring time is unknown. Finally, in the Giant Von Karman (GVK) at SPEC, high resolution 3D-PIV velocity measurements have and will be conducted in the interaction area between
-
the interaction between wind farms and the atmospheric boundary layer using a combination of wind-tunnel experiments, field measurements, and advanced numerical simulations. The ultimate goal is to gain fundamental
-
driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between hair’s/sheet’s elastic deformations
-
numerical modelling. The training plan includes participation in specialised courses, international conferences, and internships, aiming to develop advanced skills in SHM, fluid–structure interaction, and
-
theory and modelling. Experience with acoustic/vibrational waves, periodic structures and/or Metamaterials. Experience with experimental measurement techniques for fluid mechanics. TU Delft Delft
-
. Spectral dynamics of the conditional Lyapunov vector (https://www-cambridge-org.sheffield.idm.oclc.org/core/journals/journal-of-fluid-mechanics/article/spectral-dynamics-and-spatial-structures
-
flexibility & structural architecture of adhesins in host-ESKAPE interactions - The University of Manchester (UK), Supervisor: Prof. Christos Pliotas DC10 - Structural studies of transport and binding