Repositori URV

Identifier: TDX:1077

Handle: https://hdl.handle.net/20.500.11797/TDX1077

Authors:
Ertürk Düzgün, Nihal

Abstract:
The main objective of the thesis is the improvement and application of the PIV technique to analyse different complex fluid flows in systems that contain solid moving or stationary parts. The alginate particles with/without fluorescein compound imbedded have been developed as a new alternative flow seeding elements for PIV applications. It has been found that the alginate micro particles have many advantages over traditional ones used in PIV systems. A comprehensive study on the three-dimensional flow analysis of the external gear pump has been done by time-resolved PIV technique to investigate its turbulent flow dynamics and statistics. Vorticity and high turbulent kinetic energy areas have been identified inside the external gear pump. The PIV technique has been efficiently applied to analyse an engine bypass flow heat exchanger in a low speed wind tunnel. The alginate particles containing fluorescein have been efficiently used in the experiments that lead to improve the PIV image quality and analyse the small-scale structures of the flows.