a little-understood phenomenon

little-

little- [lɪtəl]

prefix

∎ a little-understood phenomenon un phénomène (encore) mal compris;

∎ a little-explored area une zone presque inexplorée ou (encore) peu explorée

Parsons, Sir Charles Algernon

SUBJECT AREA: Electricity, Ports and shipping

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b. 13 June 1854 London, England

d. 11 February 1931 on board Duchess of Richmond, Kingston, Jamaica

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English eingineer, inventor of the steam turbine and developer of the high-speed electric generator.

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The youngest son of the Earl of Rosse, he came from a family well known in scientific circles, the six boys growing up in an intellectual atmosphere at Birr Castle, the ancestral home in Ireland, where a forge and large workshop were available to them. Charles, like his brothers, did not go to school but was educated by private tutors of the character of Sir Robert Ball, this type of education being interspersed with overseas holiday trips to France, Holland, Belgium and Spain in the family yacht. In 1871, at the age of 17, he went to Trinity College, Dublin, and after two years he went on to St John's College, Cambridge. This was before the Engineering School had opened, and Parsons studied mechanics and mathematics.

In 1877 he was apprenticed to W.G.Armstrong \& Co. of Elswick, where he stayed for four years, developing an epicycloidal engine that he had designed while at Cambridge. He then moved to Kitson \& Co. of Leeds, where he went half shares in a small experimental shop working on rocket propulsion for torpedoes.

In 1887 he married Katherine Bethell, who contracted rheumatic fever from early-morning outdoor vigils with her husband to watch his torpedo experiments while on their honeymoon! He then moved to a partnership in Clarke, Chapman \& Co. at Gateshead. There he joined the electrical department, initially working on the development of a small, steam-driven marine lighting set. This involved the development of either a low-speed dynamo, for direct coupling to a reciprocating engine, or a high-speed engine, and it was this requirement that started Parsons on the track of the steam turbine. This entailed many problems such as the running of shafts at speeds of up to 40,000 rpm and the design of a DC generator for 18,000 rpm. He took out patents for both the turbine and the generator on 23 April 1884. In 1888 he dissolved his partnership with Clarke, Chapman \& Co. to set up his own firm in Newcastle, leaving his patents with the company's owners. This denied him the use of the axial-flow turbine, so Parsons then designed a radial-flow layout; he later bought back his patents from Clarke, Chapman \& Co. His original patent had included the use of the steam turbine as a means of marine propulsion, and Parsons now set about realizing this possibility. He experimented with 2 ft (61 cm) and 6 ft (183 cm) long models, towed with a fishing line or, later, driven by a twisted rubber cord, through a single-reduction set of spiral gearing.

The first trials of the Turbinia took place in 1894 but were disappointing due to cavitation, a little-understood phenomenon at the time. He used an axial-flow turbine of 2,000 shp running at 2,000 rpm. His work resulted in a far greater understanding of the phenomenon of cavitation than had hitherto existed. Land turbines of up to 350 kW (470 hp) had meanwhile been built. Experiments with the Turbinia culminated in a demonstration which took place at the great Naval Review of 1897 at Spithead, held to celebrate Queen Victoria's Diamond Jubilee. Here, the little Turbinia darted in and out of the lines of heavy warships and destroyers, attaining the unheard of speed of 34.5 knots. The following year the Admiralty placed their first order for a turbine-driven ship, and passenger vessels started operation soon after, the first in 1901. By 1906 the Admiralty had moved over to use turbines exclusively. These early turbines had almost all been direct-coupled to the ship's propeller shaft. For optimum performance of both turbine and propeller, Parsons realized that some form of reduction gearing was necessary, which would have to be extremely accurate because of the speeds involved. Parsons's Creep Mechanism of 1912 ensured that any errors in the master wheel would be distributed evenly around the wheel being cut.

Parsons was also involved in optical work and had a controlling interest in the firm of Ross Ltd of London and, later, in Sir Howard Grubb \& Sons. He he was an enlightened employer, originating share schemes and other benefits for his employees.

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Principal Honours and Distinctions

Knighted. Order of Merit 1927.

Further Reading

A.T.Bowden, 1966, "Charles Parsons: Purveyor of power", in E.G.Semler (ed.), The Great Masters. Engineering Heritage, Vol. II, London: Institution of Mechanical Engineers/Heinemann.

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Fairbairn, William

SUBJECT AREA: Ports and shipping

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b. 19 February 1789 Kelso, Roxburghshire, Scotland

d. 18 August 1874 Farnham, Surrey, England

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Scottish engineer and shipbuilder, pioneer in the use of iron in structures.

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Born in modest circumstances, Fairbairn nevertheless enjoyed a broad and liberal education until around the age of 14. Thereafter he served an apprenticeship as a millwright in a Northumberland colliery. This seven-year period marked him out as a man of determination and intellectual ability; he planned his life around the practical work of pit-machinery maintenance and devoted his limited free time to the study of mathematics, science and history as well as "Church, Milton and Recreation". Like many before and countless thousands after, he worked in London for some difficult and profitless years, and then moved to Manchester, the city he was to regard as home for the rest of his life. In 1816 he was married. Along with a workmate, James Lillie, he set up a general engineering business, which steadily enlarged and ultimately involved both shipbuilding and boiler-making. The partnership was dissolved in 1832 and Fairbairn continued on his own. Consultancy work commissioned by the Forth and Clyde Canal led to the construction of iron steamships by Fairbairn for the canal; one of these, the PS Manchester was lost in the Irish Sea (through the little-understood phenomenon of compass deviation) on her delivery voyage from Manchester to the Clyde. This brought Fairbairn to the forefront of research in this field and confirmed him as a shipbuilder in the novel construction of iron vessels. In 1835 he operated the Millwall Shipyard on the Isle of Dogs on the Thames; this is regarded as one of the first two shipyards dedicated to iron production from the outset (the other being Tod and MacGregor of Glasgow). Losses at the London yard forced Fairbairn to sell off, and the yard passed into the hands of John Scott Russell, who built the I.K. Brunel -designed Great Eastern on the site. However, his business in Manchester went from strength to strength: he produced an improved Cornish boiler with two firetubes, known as the Lancashire boiler; he invented a riveting machine; and designed the beautiful swan-necked box-structured crane that is known as the Fairbairn crane to this day.

Throughout his life he advocated the widest use of iron; he served on the Admiralty Committee of 1861 investigating the use of this material in the Royal Navy. In his later years he travelled widely in Europe as an engineering consultant and published many papers on engineering. His contribution to worldwide engineering was recognized during his lifetime by the conferment of a baronetcy by Queen Victoria.

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Principal Honours and Distinctions

Created Baronet 1869. FRS 1850. Elected to the Academy of Science of France 1852. President, Institution of Mechnical Engineers 1854. Royal Society Gold Medal 1860. President, British Association 1861.

Bibliography

Fairbairn wrote many papers on a wide range of engineering subjects from water-wheels to iron metallurgy and from railway brakes to the strength of iron ships. In 1856 he contributed the article on iron to the 8th edition of Encyclopaedia Britannica.

Further Reading

W.Pole (ed.), 1877, The Life of Sir William Fairbairn Bart, London: Longmans Green; reprinted 1970, David and Charles Reprints (written in part by Fairbairn, but completed and edited by Pole).

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