Non-equilibrium one-dimensional two-phase flow in variable area channelsA one-dimensional nonequilibrium flow analysis has been formulated for a one component two phase flow. The flow is considered homogeneous and essentially isothermal. Phase change is assumed to occur at heterogeneous nucleation sites and the growth of the vapor bubbles is governed by heat conduction from the liquid to the bubble. The analysis adjusted for friction is applied to liquid nitrogen flow in a venturi and comparison is made with the NASA experimental results of Simoneau. Good agreement with the experiments is obtained when one assumes the effective activation energy for nucleus formation to be small but nonzero. The computed pressure distributions deviate from the experimental results in the throat region of the venturi in a manner consistent with centrifugal effects not accounted for in the one-dimensional theory. The results are shown to depend not only on cavitation number but on additional dimensionless parameters governing the nonequilibrium production and subsequent growth of nuclei.
Document ID
19760039484
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Rohatgi, U. S. (Case Western Reserve Univ. Cleveland, OH, United States)
Reshotko, E. (Case-Western-Reserve University Cleveland, Ohio, United States)