A Comparison of Experimental Rotordynamic Coefficients and Leakage Characteristics Between Hole-Pattern Gas Damper Seals and a Honeycomb Seal-Reference-Cited by-同舟云学术

A Comparison of Experimental Rotordynamic Coefficients and Leakage Characteristics Between Hole-Pattern Gas Damper Seals and a Honeycomb Seal

Published:1998-10-01 Issue:4 Volume:120 Page:778-783
ISSN:0742-4795
Container-title:Journal of Engineering for Gas Turbines and Power
language:en
Short-container-title:

Author:

Yu Z.¹,Childs D. W.¹

Affiliation:

1. Turbomachinery Laboratory, Texas A&M University, College Station, TX 77843-3254

Abstract

Honeycomb annular seals are an attractive design alternative due to their superior static and dynamic performance. However, their implementation in industrial practice has been delayed by the following characteristics: a) manufacturing time can be appreciable, and b) they can seriously damage the shaft if rubbing occurs. To minimize these problems, “hole-pattern” gas damper seals, which are formed by simply drilling holes into an annular smooth seal, were manufactured and tested. The hole-pattern damper seal stator can be made of high-strength plastic materials which are less likely to damage a shaft during rubbing. The experimental results presented demonstrate that, compared to a honeycomb seal, a hole-pattern damper seal with 3.18 mm hole diameters and a high percentage of hole surface has achieved: (a) an average of 12 percent reduction in leakage rate, and(b) considerably higher effective damping, especially under high speeds and low inlet pressure ratio conditions.

Publisher

ASME International

Subject

Mechanical Engineering,Energy Engineering and Power Technology,Aerospace Engineering,Fuel Technology,Nuclear Energy and Engineering

Link

http://asmedigitalcollection.asme.org/gasturbinespower/article-pdf/120/4/778/5703406/778_1.pdf

Reference9 articles.

1. Childs D. W. , NelsonC. C., NicksC., ScharrerJ., ElrodD., and HoleK., 1986a, “Theory Versus Experiment for the Rotordynamic Coefficients of Annular Gas Seals: Part 1—Test Facility and Apparatus,” ASME Journal of Tribology, Vol. 108, pp. 426–432.

2. Childs D. W. , KimC. H., 1986b, “Test Results For Round-Hole-Pattern Damper Seals: Optimum Configurations and Dimensions for Maximum Net Damping,” ASME Journal of Tribology, Vol. 108, pp. 605–611.

3. Childs D. W. , NolanS. A., and KilgoreJ. J., 1990, “Additional Test Results for Round-Hole-Pattern Damper Seals: Leakage, Friction Factors, and Rotordynamic Force Coefficients,” ASME Journal of Tribology, Vol. 112, pp. 365–371.

4. Childs, D. W., 1993, Turbomachinery Rotordynamics: Phenomena, Modeling, and Analysis, John Wiley & Sons, Inc., New York, NY, p. 228.

5. Pelletti, J. M., 1990, “A Comparison of Experiment and Theoretical Predictions for the Rotordynamic Coefficients of Short (LID=1/6) Labyrinth Seals,” Master’s thesis, Texas A&M University, College Station, TX.

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