International Journal of Rotating Machinery (Jan 2010)

Influence of Thermodynamic Effect on Blade Load in a Cavitating Inducer

  • Kengo Kikuta,
  • Noriyuki Shimiya,
  • Tomoyuki Hashimoto,
  • Mitsuru Shimagaki,
  • Hideaki Nanri,
  • Yoshiki Yoshida

DOI
https://doi.org/10.1155/2010/302360
Journal volume & issue
Vol. 2010

Abstract

Read online

Distribution of the blade load is one of the design parameters for a cavitating inducer. For experimental investigation of the thermodynamic effect on the blade load, we conducted experiments in both cold water and liquid nitrogen. The thermodynamic effect on cavitation notably appears in this cryogenic fluid although it can be disregarded in cold water. In these experiments, the pressure rise along the blade tip was measured. In water, the pressure increased almost linearly from the leading edge to the trailing edge at higher cavitation number. After that, with a decrease of cavitation number, pressure rise occurred only near the trailing edge. On the other hand, in liquid nitrogen, the pressure distribution was similar to that in water at a higher cavitation number, even if the cavitation number as a cavitation parameter decreased. Because the cavitation growth is suppressed by the thermodynamic effect, the distribution of the blade load does not change even at lower cavitation number. By contrast, the pressure distribution in liquid nitrogen has the same tendency as that in water if the cavity length at the blade tip is taken as a cavitation indication. From these results, it was found that the shift of the blade load to the trailing edge depended on the increase of cavity length, and that the distribution of blade load was indicated only by the cavity length independent of the thermodynamic effect.