This paper presents results from a research program conducted a number of years ago on the problem of flashing flow of water in nozzles. In a previous paper [1] we presented results for the case of stagnation states in the low quality two-phase region. The present paper reports results for stagnation states in the subcooled region at pressures up to 9.05 × 103 kN/m2 and subcooling from 0 to 60° C. Pressure profiles and flow rates are reported. The results are compared with limiting cases of Bernoulli flow (meta-stable liquid flow) and homogeneous equilibrium flow. As expected neither was able to predict the experimental results. A two-step model based upon nucleation delay, “discontinuous” transition to two-phase flow followed by frozen composition gave reasonable predictions of the flowrates and pressure profiles in the convergent section.
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Flashing Flow of Initially Subcooled Water in Convergent–Divergent Nozzles
V. E. Schrock,
V. E. Schrock
Department of Nuclear Engineering, General Motors Corp., Warren, Mich.
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E. S. Starkman,
E. S. Starkman
Department of Mechanical Engineering, and Environmental Activities, General Motors Corp., Warren, Mich.
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R. A. Brown
R. A. Brown
Department of Mechanical Engineering, University of California, Berkeley, Calif.
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V. E. Schrock
Department of Nuclear Engineering, General Motors Corp., Warren, Mich.
E. S. Starkman
Department of Mechanical Engineering, and Environmental Activities, General Motors Corp., Warren, Mich.
R. A. Brown
Department of Mechanical Engineering, University of California, Berkeley, Calif.
J. Heat Transfer. May 1977, 99(2): 263-268 (6 pages)
Published Online: May 1, 1977
Article history
Received:
February 22, 1977
Online:
August 11, 2010
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Citation
Schrock, V. E., Starkman, E. S., and Brown, R. A. (May 1, 1977). "Flashing Flow of Initially Subcooled Water in Convergent–Divergent Nozzles." ASME. J. Heat Transfer. May 1977; 99(2): 263–268. https://doi.org/10.1115/1.3450679
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