Unobstructed
PIV measurements within an axial turbo-pump using liquid and
blades with matched refractive indices.
O. Uzol, Y-C Chow,, J. Katz & C. Meneveau
Department of Mechanical Engineering
Johns Hopkins University, Baltimore, MD 21218
ABSTRACT: Performing PIV measurements within complex turbomachinery
with multiple blade rows is difficult due to the optical obstruction
to the illuminating sheet and to the camera caused by the blades.
This paper introduces a refractive index matched facility that
overcomes this problem. The rotor and stator blades are made
of transparent acrylic and the working fluid has the same optical
refractive index as the blades. A 64% by weight solution of Sodium
Iodide in water is used for this purpose. This liquid has a kinematic
viscosity of about 1.1 x 10-6 m2/s, which is almost the same
as that of water enabling operation at high Reynolds numbers.
Issues related to operating with this fluid such as chemical
stability, variations in transmittance and solutions to these
problems are discussed. This setup allows full optical access
to the entire rotor and stator passages both to the laser sheet
and the camera. The experiments are conducted at different streamwise
locations covering the entire flow fields around the rotor, the
stator, the gap between them and the wakes behind. Vector maps
of the instantaneous and phase averaged flow fields as well as
the distribution of turbulent kinetic energy are obtained. Measurements
at different magnifications enable us to obtain an overview of
the flow structure, as well as detailed velocity distributions
in the boundary layers and in the wakes.
Experiments
in Fluids 33, p. 909-919 (2002).
full
pdf article
(© Springer,
see http://link.springer-ny.com/link/service/journals/00348)
