Sage Journals: Discover world-class research

Abstract

The two-phase annular nozzle is a critical component of liquid expanders. It matches the outlet of the first stage and the inlet of the second stage. A design method of two-phase annular nozzle involving a two-step process is proposed. Nonequilibrium effects are introduced by the area factor during the second process. The flashing in two-phase annular nozzle is simulated through the cavitation method and validated by the experimental results of Brookhaven National Laboratory’s nozzle and Hord’s hydrofoil. A forward flashing two-phase annular nozzle and a backward flashing two-phase nozzle are designed with different centerline angle distributions where they show a good agreement with the design. Forward flashing two-phase annular nozzle exhibits high curvature and nonuniformity. Backward flashing two-phase nozzle exhibits lower nonuniformity and a slightly higher boundary layer ratio, which shows a better performance in terms of the nonequilibrium effects.

Keywords

Flashing nozzle two-phase flow liquid expander nonequilibrium effects

Get full access to this article

View all access options for this article.

References

Guo

Chen

, et al. Thermodynamic characteristics of a novel supercritical compressed air energy storage system. Energy Convers Manage 2016; 115: 167–177.

Elliott DG. Acceleration of liquids in two phase nozzles. NASA-CR-95146, 1968.

Simoes-Moreira

. Oblique evaporation waves. ShockWaves 2000; 10: 229–234.

Liao

Lucas

. 3D CFD simulation of flashing flows 234 in a converging-diverging nozzle. Nucl Eng Des 2015; 292: 149–163.

Liu

Chen

. Critical flashing flow in convergent–divergent nozzles with initially subcooled liquid. Int J Therm Sci 2008; 47: 1069–1076.

Hutmacher ES and Whitten SD. Study of safety relief valve operation under ATWS conditions. ETEC-TDR-78-19, 1979.

Hsu Y. Review of critical flow rate, propagation of pressure pulse, and sonic velocity in two-phase media. NASA-TN-D-6814, E-6389, 1972.

Utturkar

Wang

, et al. Recent progress in modeling of cryogenic cavitation for liquid rocket propulsion. Prog Aerosp Sci 2005; 41: 558–608.

Saha P, Research USNRCOoNR and Energy BNLDoN. A review of two-phase steam-water critical flow models with emphasis on thermal nonequilibrium. U.S. Nuclear Regulatory Commission, 1978.

10.

Isbin

. Some observations on the status of two-phase critical flow models. Int J Multiphase Flow 1980; 6: 131–137.

11.

Elias

Levy

Chambré

. A mechanistic non-equilibrium model for two-phase critical flow. Int J Multiphase Flow 1983; 10: 21–40.

12.

Richter

. Separated two-phase flow model: application to critical two-phase flow. Int J Multiphase Flow 1983; 9: 511–530.

13.

Ardron

. A two-fluid model for critical vapour-liquid flow. Int J Multiphase Flow 1978; 4: 323–337.

14.

Shin

Jones

. Nucleation and flashing in nozzles—1. A distributed nucleation model. Int J Multiphase Flow 1993; 19: 943–964.

15.

Janet

Liao

Lucas

. Heterogeneous nucleation in CFD simulation of flashing flows in converging–diverging nozzles. Int J Multiphase Flow 2015; 74: 106–117.

16.

Abuaf

Zimmer

, et al. Study of nonequilibrium flashing of water in a converging-diverging nozzle. Volume 1: experimental, Upton, NY: Brookhaven National Lab., 1981.

17.

Abuaf

Saha

. Study of nonequilibrium flashing of water in a converging-diverging nozzle. Volume 2: modeling, Upton, NY: Brookhaven National Lab., 1981.

18.

Zwart PJ, Gerber AG and Belamri T. A two-phase flow model for predicting cavitation dynamics. In: Fifth international conference on multiphase flow, Yokohama, Japan, 2004.

19.

Xue

Ruan

Liu

, et al. The influence of cavitation on the flow characteristics of liquid nitrogen through spray nozzles: a CFD study. Cryogenics 2017; 86: 42–56.

20.

Liu

Chen

Zhang

, et al. Investigation on CHF of saturated liquid nitrogen flow boiling in a horizontal small channel. Appl Therm Eng 2017; 125: 1025–1036.

21.

Hord J. Cavitation in liquid cryogens 2: hydrofoil. NASA-CR-2156, 1973.

22.

Hosangadi

Ahuja

. Numerical study of cavitation in cryogenic fluids. J Fluids Eng 2005; 127: 267–281.

Design method of a two-phase annular nozzle in cryogenic liquid expander

Abstract

Keywords

Get full access to this article

References