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Nuclear Technology Volume 62, 1983 - Issue 1
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Technical Paper

Statistical Characteristics of Incipient Two-Phase Noise for Reactor Diagnosis

Monideep Kumar DeWestinghouse Electric CorporationNuclear Technology Division, P.O. Box 355 Pittsburgh, Pennsylvania 15230
Pages 94-101 | Published online: 13 May 2017

References

  • W. M. CAREY et al., “The Detection of Sodium Vapor Bubble Collapse in a Liquid Metal Fast Breeder Reactor,” Proc. 2nd Specialists Mtg. Reactor Noise, Gatlinburg, Tennessee, September 19–23, 1977, CONF-770902, p. 437.
  • P. A. LUSH and S. P. HUTTON, “The Relation Between Cavitation Intensity and Noise in a Venturi-Type Section,” Proc. Int. Conf. Pump and Turbine Design, Glasgow, September 1976.
  • J. W. DAILY and V. E. JOHNSON, Jr., “Turbulence and Boundary Layer Effects on Cavitation Inception from Gas Nuclei,” Cavitation in Hydrodynamics, Teddington Conf., London (1956); see also Trans. ASME, 78, 1695, American Society of Mechanical Engineers (1956).
  • V. I. IL’ICHEV, “The Frequency of Cavity Formation in Turbulent Boundary Layers and Wakes,” Sov. Phys. Dok., 6, 2 (Aug. 1961).
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  • R. D. IVANY, “Collapse of a Cavitation Bubble in Viscous, Compressible Liquid-Numerical and Experimental Analyses,” PhD Thesis, University of Michigan (1965); see also R. D. IVANY and F. G. HAMMITT, “Cavitation Bubble Collapse in Viscous, Compressible Liquids—Numerical Analyses,” Trans. ASME J. Basic Eng., D, 87, 4, 977 (1965).
  • M. J. ROBINSON, “On the Detailed Flow Structure and the Corresponding Damage to Test Specimens in a Cavitating Venture,” PhD Thesis, University of Michigan (1965); see also M. J. ROBINSON and F. G. HAMMITT, “Detailed Damage Characteristics in a Cavitating Venturi,” Trans. ASME J. Basic Eng., D, 89, 1, 961 (Mar. 1967).
  • M. K. DE and F. G. HAMMITT, “New Method for Monitoring and Correlating Cavitation Noise to Erosion Capability,” Trans. ASME J. Fluids Eng., 104, 4, 434 (Dec. 1982).
  • M. K. DE, “Acoustic Waves from Hydrodynamic Cavitation,” PhD Thesis, University of Michigan (1980).
  • M. K. DE and F. G. HAMMITT, “Instrument System for Monitoring Cavitation Noise,” J. Phys. E, 15, 7, 741 (July 1982).
  • O. AHMED, “A New Technique for the Measurement of Cavitation Nuclei Spectra,” PhD Thesis, University of Michigan (1965); see also F. G. HAMMITT, A. KELLER, O. AHMED, J. PYUN, and E. YILMAZ, “Cavitation Threshold and Superheat in Various Fluids,” Proc. Conf. Cavitation, Herriot-Watt University, Edinburgh, U.K., p. 341, Institute of Mechanical Engineers (Sep. 1974).
  • S. N. DOBROKHOTOV, C. A. KAPUSTINA, and Yu. G. STATNIKOV, “On the Size Distribution of Stable Bubbles in a Liquid,” Sov. Phys. Acous., 15, 4 (Apr.-June 1970).

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