A Method for Reducing the Base Drag of Wings with Blunt Trailing Edge

M Tanner

doi:10.1017/S0001925900006284

Summary

To study the possibilities of reducing the base drag of profiles with a blunt trailing edge, experiments were performed in two low-speed wind-tunnels at the DFVLR-AVA, Göttingen, some on models between walls and some on rectangular wings with an aspect ratio of 2.5. The results show that the mean base pressure can be increased, and so the base drag reduced, by using a special form of the blunt trailing edge. The variation of local base pressure along the span, and the way in which this variation is influenced by the form of the trailing edge, is also shown. Some results for the total drag and lift are also indicated.

References

1. Chapman, D R Airfoil profiles for minimum pressure drag at supersonic velocities. General analysis with application to linearized supersonic flow. NACA TR 1063. 1952 Google Scholar

2. Holder, D W The transonic flow past two-dimensional aerofoils. Journal of the Royal Aeronautical Society, Vol 68, pp 501-516, 1964.Google Scholar

3. Nash, J F A review of research on two-dimensional base flow. ARC R & M 3323, 1963.Google Scholar

4. Roshko, A On the drag and shedding frequency of two-dimensional bluff bodies. NACA TN 3169, 1954.Google Scholar

5. Bearman, P W Investigation of the flow behind a two-dimensional model with blunt trailing edge and fitted with splitter plates. Journal of Fluid Mechanics, Vol 21, pp 241-255, 1965.Google Scholar

6. Bearman, P W Investigation into the effect of base bleed on the flow behind a two-dimensional model with a blunt trailing edge. AGARD Conference Proceedings No. 4, Separated flows, Part 2, pp 479-507, 1966.Google Scholar

7. Tanner, M Totwasserbeeinflussung bei Keilströmungen. Deutsche Forschungs - und Versuchsanstalt für Luft und Raumfahrt, DLR FB 64-39, 1964.Google Scholar

8. Nash, J F A discussion of two-dimensional turbulent base flows. ARC R & M 3468, 1967.Google Scholar

9. Tanner, M Druckverteilungsmessungen an einem Kreiszylinder im kritischen Reynoldszahlbereich. Deutsche Forschungs - und Versuchsanstalt für Luft und Raumfahrt, DLR FB 68-08, 1968.Google Scholar

10. Naumann, A Morsbach, M Kramer, C The conditions of separation and vortex formation past cylinders. AGARD Conference Proceedings No 4, Separated flows, Part 2, pp 539-574, 1966.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

NORTON, DAVID J. MACHA, JOHN M. and YOUNG, JAMES C. 1973. Surface Temperature Effect on Subsonic Stall. Journal of Spacecraft and Rockets, Vol. 10, Issue. 9, p. 581.

SHARMA, SUBHASH CHANDER and STUIVER, WILLEM 1974. Boom 'Forces in Librating Dumbbell-Type Satellites. AIAA Journal, Vol. 12, Issue. 4, p. 425.

Archibald, F.S. 1975. Unsteady Kutta condition at high values of the reduced frequency parameter. Journal of Aircraft, Vol. 12, Issue. 6, p. 545.

Tanner, M. 1975. Reduction of base drag. Progress in Aerospace Sciences, Vol. 16, Issue. 4, p. 369.

Mair, W. A. 1978. Aerodynamic Drag Mechanisms of Bluff Bodies and Road Vehicles. p. 161.

Morel, Thomas 1979. Effect of Base Cavities on the Aerodynamic Drag of an Axisymmetric Cylinder. Aeronautical Quarterly, Vol. 30, Issue. 2, p. 400.

Gai, S.L. and Patil, S.R. 1980. Subsonic axisymmetric base flow experiments with base modifications. Journal of Spacecraft and Rockets, Vol. 17, Issue. 1, p. 42.

Kapoor, Kamlesh 1982. Effect of Radial Fins on Base Drag of an Axisymmetric Body at Low Speeds. Journal of Spacecraft and Rockets, Vol. 19, Issue. 1, p. 89.

Ramjee, V. Tulapurkara, E. G. and Balabaskaran, V. 1986. Experimental and theoretical study of wings with blunt trailing edges. Journal of Aircraft, Vol. 23, Issue. 4, p. 349.

Gai, S. L. and Sharma, S. D. 1987. Pressure distributions behind a rearward facing segmented step. Experiments in Fluids, Vol. 5, Issue. 3, p. 154.

Sharma, S. D. 1987. Development of pseudo-two-dimensional turbulent wakes. The Physics of Fluids, Vol. 30, Issue. 2, p. 357.

Nakagawa, Takeo 1989. Vortex shedding mechanism from a triangular prism in a subsonic flow. Fluid Dynamics Research, Vol. 5, Issue. 2, p. 69.

Vijgen, P. M. H. W. Van Dam, C. P. Holmes, B. J. and Howard, F. G. 1989. Low Reynolds Number Aerodynamics. Vol. 54, Issue. , p. 295.

Rodriguez, O. 1991. Base drag reduction by control of the three-dimensional unsteady vortical structures. Experiments in Fluids, Vol. 11, Issue. 4, p. 218.

FREUND, J. and MUNGAL, M. 1992. Drag modification and wake control of an axisymmetric bluff body using the Coanda effect.

Myose, Roy and Iwata, Jiro 1995. The near-wake flow behavior of an oscillating airfoil with modified traling edge.

Petrusma, M. S. and Gai, S. L. 1996. Bluff body wakes with free, fixed, and discontinuous separation at low Reynolds numbers and low aspect ratio. Experiments in Fluids, Vol. 20, Issue. 3, p. 189.

Bearman, P.W. 1997. Near wake flows behind two- and three-dimensional bluff bodies. Journal of Wind Engineering and Industrial Aerodynamics, Vol. 69-71, Issue. , p. 33.

Tarnopolsky, Alex and Gai, Sudhir 1998. An experimental investigation of strong three-dimensional disturbances to a compressible wake.

Saltzman, Edwin Wang, K. and Iliff, Kenneth 1999. Flight-determined subsonic lift and drag characteristics of seven lifting-body and wing-body reentry vehicle configurations with truncated bases.

Download full list

Article contents

A Method for Reducing the Base Drag of Wings with Blunt Trailing Edge

Summary

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

A Method for Reducing the Base Drag of Wings with Blunt Trailing Edge

Summary

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests