Francis Herbert Wenham Explained

Francis Herbert Wenham (1824, Kensington – 1908)[1] was a British marine engineer who studied the problem of human flight and wrote a perceptive and influential academic paper, which he presented to the first meeting of the Royal Aeronautical Society in London in 1866. He was the son of a British army surgeon.

Wenham's trailblazing report, "Aerial Locomotion," was published in the Society's journal[2] and reprinted in widely distributed aeronautical publications in the 1890s, including Octave Chanute's "Progress In Flying Machines". The paper introduced the idea of superposed wings in a flying machine, a concept that Wenham had tested in 1858 with a multiwing glider, although it did not actually fly. In 1866 he patented the design,[3] which became the basis for biplanes, triplanes and multiplanes that took to the air as gliders in the 1890s, and as airplanes in the early decades of the 20th century. Superposed wings increased the lifting area and avoided the structural problems of excessive wing length. According to some sources John Stringfellow was influenced by Wenham's works or possibly even by his personal communication when creating his steam engine triplane model aircraft, which was demonstrated publicly at the international exhibition in the Crystal Palace in 1868.[4] [5]

Wenham first tested superposed wings in 1866 with a model that resembled a Venetian blind. He tried several variants with some success, then decided to build a machine which could support a man. He tested it in the evening in a strong breeze. He was taken by surprise when, as he wrote, "A sudden gust caught up the experimenter, who was carried some distance from the ground".[6] A monoplane attempt that same year was inconsequential (Flying Machines, 1911).

In 1871 Wenham and colleague John Browning designed and constructed what was probably the world's first wind tunnel. Their experiments showed that high aspect ratio wings—long and narrow—had a better lift-to-drag ratio than short stubby wings with the same lifting area. Writing about his work, Wenham may have been the first scientist to use the word "aeroplane".[7]

Aviation writer Carroll Gray says Wenham's work may have been an important influence on the Wright brothers:

It is striking to note that at least four significant aerial vehicle design elements suggested by Wenham in 1866 can be seen on the series of successful Wright gliders and on the 1903 Wright Flyer: 1) superimposed wings, 2) vertical upright supports between the superimposed wings, 3) the prone position of the operator, as in Wenham's design with superimposed wings, and 4) that turning in flight ought be accomplished by means of generating more lift on one side of the aerial vehicle than on the other, rather than through the use of a simple rudder. It is also important to restate that Wenham's paper "Aerial Locomotion" was readily available to Wilbur Wright (as well as to Orville) in the 1895 "Aeronautical Annual"[8] which the Smithsonian Institution recommended to Wilbur Wright in June 1899 (along with other aeronautical reading material), and which he soon thereafter obtained and read.[9]

Aeronautics was Wenham's "spare time" pursuit. In his regular career he designed marine engines, ship's propellers, gas and hot air engines, and high pressure boilers. As an inventor of hot air engines, Wenham followed the principles of George Cayley.[10] He also invented the Wenham gas lamp,[11] which enjoyed a decade or two of popularity before being displaced by electric incandescent lighting. Wenham was highly skilled in the use of microscopes. He published many papers on the subject and designed stands, objective lenses and prisms, fabricating some of the latter himself.[7] He was important in the history of photography, having given Francis Frith invaluable assistance in producing his 1856 photographs in Egypt.[12]

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References

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Notes and References

  1. Web site: Herbert Wenham. hotairengines.org.
  2. Wenham. F.H.. On aërial locomotion and the laws by which heavy bodies impelled through the air are sustained. Annual Report of the Aëronautical Society of Great Britain. 1866. 1. 10–40. ; followed by a discussion, pp. 40–46.
  3. See:
    • Wenham, Francis Herbert, British patent no. 1571: "Improvements in apparatus for aërial navigation" (issued: 1866 June 7), Chronological and Descriptive Index of Patents Applied for and Patents Granted for the Year 1866 (London, England: Office of the Commissioners of Patents for Inventions, 1867), p. 109.
    • Wenham, Francis Herbert (1866), British patent no. 1571: "Flying Machine," in: Brewer, Griffith and Alexander, Patrick Y., ed.s, Aeronautics: an Abridgment of Aeronautical Specifications Filed at the Patent Office From a. D. 1815 to a. D. 1891 (London, England: Taylor and Francis, 1893), p. 36.
  4. http://www.flyingmachines.org/strng.html Flying Machines
  5. Авиация в России (к столетию отечественного самолётостроения) [Aviation in Russia (On the centenary of the domestic aircraft industry)], Moscow, 1983.
  6. http://www.ctie.monash.edu.au/hargrave/wenham.html Aviation Pioneers: An Anthology
  7. Web site: L.V. Martin . Francis Wenham and the Microscope . Armchair World . 14 October 2018. Queckett Microscopical Club (London), 1973 via Journal of the Microscopical Society of Southern California, February 1998.
  8. Three of these journals were published in the U.S. in the mid-1890s by James Means.
  9. http://www.flyingmachines.org/wenh.html Flying Machines
  10. Web site: Wenham Hot Air Engine. hotairengines.org.
  11. News: A Beautiful Light . . XLV . 96 . Tasmania, Australia . 23 April 1885 . 21 January 2018 . 3 . National Library of Australia ("Trove" website).
  12. Web site: Up the Nile with Francis Frith. Bill Jay. British Journal of Photography. 8 January 1982. 21 January 2018. 30 December 2019. https://web.archive.org/web/20191230010401/http://www.billjayonphotography.com/UpTheNileWithFrancisFrith.pdf. dead.