On a Novel Annular Sector Cascade Technique-Reference-Cited by-同舟云学术

On a Novel Annular Sector Cascade Technique

Published:2004-03-01 Issue:1 Volume:129 Page:175-183
ISSN:0889-504X
Container-title:Journal of Turbomachinery
language:en
Short-container-title:

Author:

Povey T.¹,Jones T. V.¹,Oldfield M. L. G.¹

Affiliation:

1. Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, UK

Abstract

An advanced technique for establishing pressure boundary conditions in annular sector cascade experiments has been developed. This novel technique represents an improvement over previous methods and provides the first means by which annular sector boundary conditions that are representative of those which develop in an annular cascade can be established with a high degree of satisfaction. The technique will enable cascade designers to exploit the obvious advantages of annular sector cascade testing: the reduced cost of both facility manufacture and facility operation and the use of engine parts in place of two-dimensional counterparts. By employing an annular sector of deswirl vanes downstream of the annular sector of test vanes, the radial pressure gradient established in the swirling flow downstream of the test vanes is not disturbed. The deswirl vane exit flow—which has zero swirl velocity—can be exhausted without unsteadiness, and without the risk of separation, into a plenum at constant pressure. The pressure ratio across the annular sector of test vanes can be tuned by adjusting the throat area at the deswirl vane exit plane. Flow conditioning systems which utilize the Oxford deswirl vane technology have previously been used to set pressure boundary conditions downstream of fully annular cascades in both model and engine scale (the Isentropic Light Piston Facility at Farnborough) experimental research facilities (Povey, T., Chana, K. S., Oldfield, M. L. G., Jones, T. V., and Owen, A. K., 2001, Proceedings of the ImechE Advances in Fluid Machinery Design Seminar, London, June 13; Povey, T., Chana, K. S., Jones, T. V., and Oldfield, M. L. G., 2003, Advances of CFD in Fluid Machinery Design, ImechE Professional Engineering, London, pp. 65–94). The deswirl vane is particularly suited to the control of highly whirling transonic flows. It has been demonstrated by direct comparison of aerodynamic measurements from fully annular and annular sector experiments that the use of a deswirl vane sector for flow conditioning at the exit of an annular sector cascade represents an attractive novel solution to the boundary condition problem. The annular sector technique is now described.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/turbomachinery/article-pdf/129/1/175/5942825/175_1.pdf

Reference9 articles.

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3. Radeklint, U. R., and Hjalmarsson, C. S., 1998, “A New Test Facility for Testing of Cooled Gas Turbine Components,” ASME Paper No. 98-GT-557.

4. Wiers, S. H., and Fransson, T. H., 2000, “Experimental Investigation of the Periodicity in a Sector of an Annular Turbine Cascade,” 15th Bi-Annular Symposium on Measuring Techniques in Transonic and Supersonic Flow in Cascades and Turbomachines, Firenze, Italy, 21–22.

5. Vogt, D. M., and Fransson, T. H., 2002, “A New Turbine Cascade for Aeromechanical Testing,” presented at The 16th Symposium on Measuring Techniques in Transonic and Supersonic Flow in Cascades and Turbomachines, Cambridge, UK, September.

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