Townend ring

ATownend ringis a narrow-chordcowling ring fitted around the cylinders of an aircraftradial engineto reduce drag and improve cooling. It was patented in 1929, and found use on various aircraft of the 1930s and into the 1940s.

Development[edit]

The Townend ring was the invention of Dr.Hubert Townendof theBritish National Physical Laboratory^[1]in 1929. Patents were supported byBoulton & Paul Ltdin 1929.^[2]^[3]In the United States it was often called a "drag ring". It caused a reduction in the drag of radial engines and was widely used in high-speed designs of 1930–1935, before the long-chordNACA cowlingcame into general use. Despite suggestions of it exploiting theMeredith effect,low airspeeds, low temperature differences and small mass flows make that unlikely,^[4]particularly when combined with the lack of flow control as the air exits the cowling.^[5] Although superior to earlier cowlings, and uncowled engines in terms of drag and cooling, above 217 kn (402 km/h; 250 mph) the NACA cowling was more efficient and soon replaced it in general use.^[6]^{[failed verification]}

Examples of aircraft with Townend rings include theBoeing P-26 Peashooter,theVickers Wellesley,theFokker D.XVIand the central engine on theJunkers Ju 52/3m.^[i]

Notes[edit]

^The wing engines of the Ju 52 had longer NACA cowlings, but the central engine only had space for the shorter Townend ring.

References[edit]

^Patent Specification 320131: Improvements in or relating to aircraft,8 July 1933 (amended specification from original dated 10 July 1928).
^1930 Canadian patent CA 304755 by Hubert Townend with drawings.
^"Means for reducing eddy formation in the airflow passing aircraft bodies".
^"A History of Aircraft Piston Engines" by Herschel Smith, (Sunflower University Press Manhattan, Kansas, 1981,ISBN 0-89745-079-5), 255 pp.
^Becker, J.;The high-speed frontier: Case histories of four NACA programs, 1920–1950,SP-445, NASA (1980),Chapter 5: High-speed Cowlings, Air Inlets and Outlets, and Internal-Flow Systems: The ramjet investigation.
^Hansen, James R."Engineering Science and the Development of the NACA Low-Drag Engine Cowling".From Engineering Science to Big Science: The NACA and NASA Collier Trophy Research Project Winners.Archived fromthe originalon 2004-10-31.Retrieved2007-04-28.

External links[edit]

The Spotters Glossary
North, J. D. (8 February 1934),"Engine Cowling: With Special Reference to the Air-cooled Engine",The Aircraft Engineer (Supplement to Flight),XXIV(6): 133–137, No. 1311
North, J. D. (22 February 1934),"Engine Cowling",The Aircraft Engineer (Supplement to Flight),IX(2): 174a–174f, No. 97
"Engine Cowling",Flight,XXVI(7): 157–158, 15 February 1934, No. 1312

[7] The wing engines of the Ju 52 had longer NACA cowlings, but the central engine only had space for the shorter Townend ring.

[1] Patent Specification 320131: Improvements in or relating to aircraft,8 July 1933 (amended specification from original dated 10 July 1928).

[2] 1930 Canadian patent CA 304755 by Hubert Townend with drawings.

[3] "Means for reducing eddy formation in the airflow passing aircraft bodies".

[4] "A History of Aircraft Piston Engines" by Herschel Smith, (Sunflower University Press Manhattan, Kansas, 1981,ISBN 0-89745-079-5), 255 pp.

[becker-5] Becker, J.;The high-speed frontier: Case histories of four NACA programs, 1920–1950,SP-445, NASA (1980),Chapter 5: High-speed Cowlings, Air Inlets and Outlets, and Internal-Flow Systems: The ramjet investigation.

[6] Hansen, James R."Engineering Science and the Development of the NACA Low-Drag Engine Cowling".From Engineering Science to Big Science: The NACA and NASA Collier Trophy Research Project Winners.Archived fromthe originalon 2004-10-31.Retrieved2007-04-28.

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