engineering designer

engineering designer

Реклама: инженер-конструктор

designer

noun

(in advertising) créatif(ive) m, f; (in engineering, industry) dessinateur(trice) m, f

Designer

Civil and Mechanical Engineering

விதானி

Designer detailer

Civil and Mechanical Engineering

விதான விவரணகா£¤

Structural designer

Civil and Mechanical Engineering

அமைப்புத் திட்டமிடுவோன்

Structural designer draughtsman

Civil and Mechanical Engineering

அமைப்புத் திட்டவரைவோன்,அமைப்பு வரைவோன்

Structural designer engineer

Civil and Mechanical Engineering

அமைப்பு எந்தி£¤

Structural designer load

Civil and Mechanical Engineering

அமைப்புச் சுமை

Structural designer steelwork

Civil and Mechanical Engineering

அமைப்பு உருக்கு வேலை

engineer

1. noun

1) Ingenieur, der/Ingenieurin, die; (service engineer, installation engineer) Techniker, der/Technikerin, die

2) (maker or designer of engines) Maschinenbauingenieur, der

3)

[ship's] engineer — Maschinist, der

2. transitive verb

1) (coll.): (contrive) arrangieren; entwickeln [Plan]

2) (manage construction of) konstruieren

* * *

noun

1) (a person who designs, makes, or works with, machinery: an electrical engineer.) der Ingenieur

2) ((usually civil engineer) a person who designs, constructs, or maintains roads, railways, bridges, sewers etc.) der Ingenieur

3) (an officer who manages a ship's engines.) der Maschinist

4) ((American) an engine-driver.) der Lokomotivführer

* * *

en·gi·neer

[ˌenʤɪˈnɪəʳ, AM -ˈnɪr]

I. n

1. (qualified in engineering) Ingenieur(in) m(f); (in navy) [Schiffs]ingenieur(in) m(f); (on merchant ship) Maschinist(in) m(f); (maintains machines) [Wartungs]ingenieur(in) m(f); (controls engines) Techniker(in) m(f); MIL Technischer Offizier

civil/electrical/mechanical \engineer Bau-/Elektro-/Maschinenbauingenieur(in) m(f)

2. ( pej: contriver) Arrangeur(in) m(f) (of von + dat)

3. AM (engine driver) Lok[omotiv]führer(in) m(f)

II. vt

▪ to \engineer sth

1. usu passive (construct precisely) etw konstruieren

to \engineer a bridge/street eine Brücke/Straße bauen

2. ( pej: skilfully contrive) etw arrangieren

how did you manage to \engineer that invitation to the party? wie bist du bloß an diese Einladung zu der Party gekommen?

to \engineer a coup einen Coup vorbereiten

to \engineer a meeting ein Treffen arrangieren

to \engineer a plan [or scheme] einen Plan aushecken [o entwickeln]

* * *

["endZI'nIə(r)]

1. n

1) (TECH) Techniker(in) m(f); (with university degree etc) Ingenieur(in) m(f)

the Engineers (Mil) — die Pioniere pl

2) (NAUT on merchant ships) Maschinist(in) m(f); (in Navy) (Schiffs)ingenieur(in) m(f)

3) (US RAIL) Lokführer(in) m(f)

4) (fig of scheme) Arrangeur(in) m(f)

2. vt

1) (TECH) konstruieren

2) (fig) election, campaign, coup organisieren; downfall, plot arrangieren, einfädeln; success, victory in die Wege leiten; (SPORT) goal einfädeln

to engineer a scheme — einen Plan aushecken

* * *

engineer [ˌendʒıˈnıə(r)]

A s

1. a) Ingenieur(in)

b) Techniker(in)

c) Mechaniker(in):

engineers pl TEL Stördienst m

2. auch SCHIFF Maschinist(in)

3. BAHN US Lokomotivführer(in)

4. MIL Pionier m:

engineer combat battalion leichtes Pionierbataillon;

engineer construction battalion schweres Pionierbataillon;

engineer group Pionierregiment n

5. Bergbau: Kunststeiger m

B v/t

1. Straßen, Brücken etc (er)bauen, anlegen, konstruieren, errichten

2. fig (geschickt) in die Wege leiten, organisieren, deichseln, einfädeln (beide umg)

C v/i als Ingenieur etc tätig sein

e. abk

1. engineering

2. engineer

3. entrance

eng. abk

1. engine

2. engineer (engineering)

3. engraved

4. engraver

5. engraving

* * *

1. noun

1) Ingenieur, der/Ingenieurin, die; (service engineer, installation engineer) Techniker, der/Technikerin, die

2) (maker or designer of engines) Maschinenbauingenieur, der

3)

[ship's] engineer — Maschinist, der

2. transitive verb

1) (coll.): (contrive) arrangieren; entwickeln [Plan]

2) (manage construction of) konstruieren

* * *

(US) n.

Maschinist m. n.

Ingenieur m.

Pionier -e m.

Techniker m.

Ilyushin, Sergei Vladimirovich

SUBJECT AREA: Aerospace

[br]

b. 30 March 1894 Dilyalevo, Vologda, Russia

d. 9 February 1977 Moscow, Russia

[br]

Russian aircraft designer.

[br]

In 1914 he joined the Russian army, later transferring to the air service and gaining his pilot's licence in 1917. After fighting in the Red Army during the Civil War, he entered the Zhukovsky Air Force Engineering Academy in Moscow in 1922, graduating four years later. He joined the Engineering Technical Corps of the Red Air Force as a designer and eventually rose to the rank of Lieutenant-General. His first design success was the 1936 DB-3 two-engined bomber, which broke several world air records. In April 1938 he was injured in a forced landing that resulted in a permanently scarred forehead. His most significant design contribution during 1939ö45 was undoubtedly the Il-2 Stormovik ground-attack aircraft. This entered service in 1941 and was distinguished by the high degree of armoured protection afforded to the crew, enabling them to operate at very low levels above ground. It was also increasingly well armed and was known by the Germans as der schwarze Tod (Black Death). After the war Ilyushin concentrated primarily on four-engined airliners, producing the Il-12 (1946), Il-14 (1954) and Il-18 (1957), but also designed the Soviet Union's first jet bomber, the Il-28. In 1948 he became Professor at the Zhukovsky Air Force Engineering Academy.

[br]

Principal Honours and Distinctions

Deputy to the Supreme Soviet 1937. Hero of Socialist Labour 1941, and two further awards of this. Order of Lenin. Winner of seven Stalin Prizes.

CM

Lanchester, Frederick William

SUBJECT AREA: Automotive engineering, Land transport

[br]

b. 28 October 1868 Lewisham, London, England

d. 8 March 1946 Birmingham, England

[br]

English designer and builder of the first all-British motor car.

[br]

The fourth of eight children of an architect, he spent his childhood in Hove and attended a private preparatory school, from where, aged 14, he went to the Hartley Institution (the forerunner of Southampton University). He was then granted a scholarship to the Royal College of Science, South Kensington, and also studied practical engineering at Finsbury Technical College, London. He worked first for a draughtsman and pseudo-patent agent, and was then appointed Assistant Works Manager of the Forward Gas Engine Company of Birmingham, with sixty men and a salary of £1 per week. He was then aged 21. His younger brother, George, was apprenticed to the same company. In 1889 and 1890 he invented a pendulum governor and an engine starter which earned him royalties. He built a flat-bottomed river craft with a stern paddle-wheel and a vertical single-cylinder engine with a wick carburettor of his own design. From 1892 he performed a number of garden experiments on model gliders relating to problems of lift and drag, which led him to postulate vortices from the wingtips trailing behind, much of his work lying behind the theory of modern aerodynamics. The need to develop a light engine for aircraft led him to car design.

In February 1896 his first experimental car took the road. It had a torsionally rigid chassis, a perfectly balanced and almost noiseless engine, dynamically stable steering, epicyclic gear for low speed and reverse with direct drive for high speed. It turned out to be underpowered and was therefore redesigned. Two years later an 8 hp, two-cylinder flat twin appeared which retained the principle of balancing by reverse rotation, had new Lanchester valve-gear and a new method of ignition based on a magneto generator. For the first time a worm and wheel replaced chain-drive or bevel-gear transmission. Lanchester also designed the machinery to make it. The car was capable of about 18 mph (29 km/h): future cars of his travelled at twice that speed. From 1899 to 1904 cars were produced for sale by the Lanchester Engine Company, which was formed in 1898. The company had to make every component except the tyres. Lanchester gave up the managership but remained as Chief Designer, and he remained in this post until 1914.

In 1907–8 his two-volume treatise Aerial Flight was published; it included consideration of skin friction, boundary-layer theory and the theory of stability. In 1909 he was appointed to the Government's Committee for Aeronautics and also became a consultant to the Daimler Company. At the age of 51 he married Dorothea Cooper. He remained a consultant to Daimler and worked also for Wolseley and Beardmore until 1929 when he started Lanchester Laboratories, working on sound reproduction. He also wrote books on relativity and on the theory of dimensions.

[br]

Principal Honours and Distinctions

FRS.

Bibliography

bht=1907–8, Aerial Flight, 2 vols.

Further Reading

P.W.Kingsford, 1966, F.W.Lanchester, Automobile Engineer.

E.G.Semler (ed.), 1966, The Great Masters. Engineering Heritage, Vol. II, London: Institution of Mechanical Engineers/Heinemann.

IMcN

Maybach, Wilhelm

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 9 February 1846 Heilbronn, Württemberg, Germany

d. 14 December 1929 Stuttgart, Germany

[br]

German engineer and engine designer, inventor of the spray carburettor.

[br]

Orphaned at the age of 10, Maybach was destined to become one of the world's most renowned engine designers. From 1868 he was apprenticed as a draughtsman at the Briiderhaus Engineering Works in Reurlingen, where his talents were recognized by Gottlieb Daimler, who was Manager and Technical Director. Nikolaus Otto had by then developed his atmospheric engine and reorganized his company, Otto \& Langen, into Gasmotorenfabrik Deutz, of which he appointed Daimler Manager. After employment at a machine builders in Karlsruhe, in 1872 Maybach followed Daimler to Deutz where he worked as a partner on the design of high-speed engines: his engines ran at up to 900 rpm, some three times as fast as conventional engines of the time. Maybach made improvements to the timing, carburation and other features. In 1881 Daimler left the Deutz Company and set up on his own as a freelance inventor, moving with his family to Bad Cannstatt; in April 1882 Maybach joined him as Engineer and Designer to set up a partnership to develop lightweight high-speed engines suitable for vehicles. A motor cycle appeared in 1885 and a modified horse-drawn carriage was fitted with a Maybach engine in 1886. Other applications to small boats, fire-engine pumps and small locomotives quickly followed, and the Vee engine of 1890 that was fitted into the French Peugeot automobiles had a profound effect upon the new sport of motor racing. In 1895 Daimler won the first international motor race and the same year Maybach became Technical Director of the Daimler firm. In 1899 Emil Jellinek, Daimler agent in France and also Austro-Hungarian consul, required a car to compete with Panhard and Levassor, who had been victorious in the Paris-Bordeaux race; he wanted more power and a lower centre of gravity, and turned to Maybach with his requirements, the 35 hp Daimler- Simplex of 1901 being the outcome. Its performance and road holding superseded those of all others at the time; it was so successful that Jellinek immediately placed an order for thirty-six cars. His daughter's name was Mercedes, after whom, when the merger of Daimler and Benz came about, the name Mercedes-Benz was adopted.

In his later years, Maybach designed the engine for the Zeppelin airships. He retired from the Daimler Company in 1907.

[br]

Principal Honours and Distinctions

Society of German Engineers Grashof Medal (its highest honour). In addition to numerous medals and titles from technical institutions, Maybach was awarded an honorary doctorate from the Stuttgart Institute of Technology.

Further Reading

F.Schidberger, Gottlieb Daimler, Wilhelm Maybach and Karl Benz, Stuttgart: Daimler Benz AG.

1961, The Annals of Mercedes-Benz Motor Vehicles and Engines, 2nd edn, Stuttgart: Daimler Benz AG.

E.Johnson, 1986, The Dawn of Motoring.

KAB / IMcN

Mitchell, Reginald Joseph

SUBJECT AREA: Aerospace

[br]

b. 20 May 1895 Talke, near Stoke-on-Trent, Staffordshire, England

d. 11 June 1937 Southampton, England

[br]

English aircraft designer.

[br]

He was the son of a headmaster who, when Mitchell was aged 6 years, set up his own printing business. Mitchell was apprenticed at the age of 16 to a locomotive builder in Stoke and also studied engineering, mechanics, mathematics and drawing at night-school. With the outbreak of war in 1914 he became increasingly interested in aircraft and in 1916 joined the Supermarine Aviation Works at Southampton. Such was his talent for aviation design that within three years he had risen to be Chief Engineer Designer. Initially Mitchell's work was concentrated on flying boats, but with the resurrection after the First World War of the biennial Schneider Trophy races for seaplanes he turned his attention increasingly to high-speed floatplanes. He first achieved success with his S-5 in the 1927 race at Venice and followed it up with further victories in 1929 and 1931 with the S-6 and S-6B, enabling Britain to win the trophy outright (See also Royce, Sir Frederick Henry). Using the experience gained from the Schneider Trophy races, Mitchell now began to design fighter aircraft. He was dissatisfied with his first attempt, which was to produce a fighter to an Air Ministry specification, and started afresh on his own. The result was the Supermarine Spitfire, which was to become one of the outstanding aircraft of the Second World War. Sadly, he died of cancer before his project came to full fruition, with the Spitfire not entering Royal Air Force service until June 1938. The success of Mitchell's designs was due to his ability to combine good engineering with aerodynamic grace.

[br]

Principal Honours and Distinctions

Royal Aeronautical Society Silver Medal 1927. CBE 1931.

Further Reading

Ralph Barker, 1971, The Schneider Trophy Races, London: Chatto \& Windus.

CM

Railton, Reid Anthony

SUBJECT AREA: Automotive engineering, Ports and shipping

[br]

b. 24 June 1895 Alderley Edge, Cheshire, England

d. 1 September 1977 Berkeley, California, USA.

[br]

English designer of record-breaking automobiles and motor boats.

[br]

Railton was educated at Rugby School and Manchester University. From 1915 to 1917 he served an apprenticeship with Leyland Motors, after which he served in the Motor Boat Section of the Royal Naval Volunteer Reserve (RNVR). Having obtained his Royal Aeronautical Club (RAeC) pilot's certificate in 1918, he went to the United States to study factory layout. He was Assistant to the Chief Engineer of Leyland Motors from 1921 to 1923, when he became Managing Director of Arab Motors Limited of Letchworth, Hertfordshire.

Railton was engineering consultant to Sir Malcolm Campbell, and was responsible for Campbell's Bluebird II boat which set a water speed record of 228.1 km/h (141.7 mph) in 1939. He was the designer of John R.Cobb's Napier Railton car which broke the speed record for automobiles on 16 September 1947 with an average speed of 634.3 km/h (394.2 mph); this record stood until 1964, when it was broken by Sir Malcolm Campbell's son Donald. Railton was also responsible for Cobb's boat, Crusader, which was the first to exceed 200 mph (322 km/h).

Railton presented many papers to the Institution of Automobile Engineers, the Institution of Mechanical Engineers and the Society of Automotive Engineers in the United States. In his later years, he lived in Berkeley, California.

[br]

Further Reading

1971–80, Who Was Who, London: A. \& C.Black.

IMcN

Camm, Sir Sydney

SUBJECT AREA: Aerospace, Weapons and armour

[br]

b. 5 August 1893 Windsor, Berkshire, England

d. 12 March 1966 Richmond, Surrey, England

[br]

English military aircraft designer.

[br]

He was the eldest of twelve children and his father was a journeyman carpenter, in whose footsteps Camm followed as an apprentice woodworker. He developed an early interest in aircraft, becoming a keen model maker in his early teens and taking a major role in founding a local society to this end, and in 1912 he designed and built a glider able to carry people. During the First World War he worked as a draughtsman for the aircraft firm Martinsyde, but became increasingly involved in design matters as the war progressed. In 1923 Camm was recruited by Sopwith to join his Hawker Engineering Company as Senior Draughtsman, but within two years had risen to be Chief Designer. His first important contribution was to develop a method of producing metal aircraft, using welded steel tubes, and in 1926 he designed his first significant aircraft, the Hawker Horsley torpedo-bomber, which briefly held the world long-distance record before it was snatched by Charles Lindbergh in his epic New York-Paris flight in 1927. His Hawker Hart light bomber followed in 1928, after which came his Hawker Fury fighter.

By the mid-1930s Camm's reputation as a designer was such that he was able to wield significant influence on the Air Ministry when Royal Air Force (RAF) aircraft specifications were being drawn up. His outstanding contribution came, however, with the unveiling of his Hawker Hurricane in 1935. This single-seater fighter was to prove one of the backbones of the RAF during 1939–45, but during the war he also designed two other excellent fighters: the Tempest and the Typhoon. After the Second World War Camm turned to jet aircraft, producing in 1951 the Hawker Hunter fighter/ground-attack aircraft, which saw lengthy service in the RAF and many other air forces. His most revolutionary contribution was the design of the Harrier jump-jet, beginning with the P.1127 prototype in 1961, followed by the Kestrel three years later. These were private ventures, but eventually the Government saw the enormous merit in the vertical take-off and landing concept, and the Harrier came to fruition in 1967. Sadly Camm, who was on the Board of Sopwith Hawker Siddeley Group, died before the aircraft came into service. He is permanently commemorated in the Camm Memorial Hall at the RAF Museum, Hendon, London.

[br]

Principal Honours and Distinctions

CBE 1941. Knighted 1953. Associate Fellow of the Royal Aeronautical Society 1918, Fellow 1932, President 1954–5, Gold Medal 1958. Daniel Guggenheim Medal (USA) 1965.

Further Reading

Alan Bramson, 1990, Pure Luck: The Authorized Biography of Sir Thomas Sopwith, 1888–1989, Wellingborough: Patrick Stephens (provides information about Camm and his association with Sopwith).

Dictionary of National Biography, 1961–70.

CM

Fabre, Henri

SUBJECT AREA: Aerospace

[br]

b. 29 November 1882 Marseilles, France

d. June 1984 France

[br]

French engineer, designer of the first seaplane, in which he made the first flight from water.

[br]

After obtaining a degree in engineering, Fabre specialized in hydrodynamics. Around 1904 he developed an interest in flying and followed the progress of early French aviators such as Archdeacon, Voisin and Blériot who were experimenting with float-gliders. Fabre carried out many experiments during the following years, including airflow tests on various surfaces and hydrodynamic tests on different designs for floats. He also built a propeller-driven motor car to develop the most efficient design for a propeller. In 1909 he built his first "hydro-aeroplane", but it failed to fly. By March 1910 he built a new float plane which was very different from contemporary French aeroplanes. It was a tail-first (canard) monoplane and had unusual Warren girder spars exposed to the airstream. The engine was a conventional Gnome rotary mounted at the rear of the machine. On 28 March 1910 Fabre, who had no previous experience of flying, decided he was ready to test his hydro-aeroplane. First he made several straight runs to test the planing properties of his three floats, then he made several short hops. In the afternoon Fabre took off from the harbour at La Mède near Marseille before official witnesses: he was able to claim the first flight by a powered seaplane. His hydro-aeroplane is preserved in the Musée de l'Air et de l'Espace in Paris.

Despite several accidents, Fabre continued to improve his design and in October of 1910 Glenn Curtiss, the American designer, visited Fabre to compare notes. A year later Curtiss built the first of his many successful seaplanes. Fabre did not continue as an aircraft designer, but he went on to design and manufacture floats for other people.

[br]

Bibliography

1980, J'ai vu naître l'aviation, Grenoble (autobiography).

JDS

Messerschmitt, Willi E.

SUBJECT AREA: Aerospace

[br]

b. 26 June 1898 Frankfurt-am-Main, Germany

d. 17 September 1978 Munich, Germany

[br]

German aircraft designer noted for successful fighters such as the Bf 109, one of the world's most widely produced aircraft.

[br]

Messerschmitt studied engineering at the Munich Institute of Tchnology and obtained his degree in 1923. By 1926 he was Chief Designer at the Bayerische Flugzeugwerke in Augsburg. Due to the ban on military aircraft in Germany following the First World War, his early designs included gliders, light aircraft, and a series of high-wing airliners. He began to make a major impact on German aircraft design once Hitler came to power and threw off the shackles of the Treaty of Versailles, which so restricted Germany's armed forces. In 1932 he bought out the now-bankrupt Bayerische Flugzeugwerke, but initially, because of enmity between himself and the German aviation minister, was not invited to compete for an air force contract for a single-engined fighter. However, in 1934 Messerschmitt designed the Bf 108 Taifun, a small civil aircraft with a fighter-like appearance. This displayed the quality of his design and the German air ministry was forced to recognize him. As a result, he unveiled the famous Bf 109 fighter which first flew in August 1935; it was used during the Spanish Civil War in 1936–9, and was to become one of the foremost combat aircraft of the Second World War. In 1938, after several name changes, the company became Messerschmitt Aktien-Gesellschaft (and hence a change of prefix from Bf to Me). During April 1939 a Messerschmitt aircraft broke the world air-speed record at 755.14 km/h (469.32 mph): it was entered in the FAI records as a Bf 109R, but was more accurately a new design designated Me 209V-1.

During the Second World War, the 5/70P was progressively improved, and eventually almost 35,000 were built. Other successful fighters followed, such as the twin-engined Me 110 which also served as a bomber and night fighter. The Messerschmitt Me 262 twin-engined jet fighter, the first jet aircraft in the world to enter service, flew during the early years of the war, but it was never given a high priority by the High Command and only a small number were in service when the war ended. Another revolutionary Messerschmitt AG design was the Me 163 Komet, the concept of Professor Alexander Lippisch who had joined Messerschmitt's company in 1939; this was the first rocket-propelled fighter to enter service. It was a small tailless design capable of 880 km/hr (550 mph), but its duration under power was only about 10 minutes and it was very dangerous to fly. From late 1944 onwards it was used to intercept the United States Air Force bombers during their daylight raids. At the other end of the scale, Messerschmitt produced the Me 321 Gigant, a huge transport glider which was towed behind a flight of three Me 110s. Later it was equipped with six engines, but it was an easy target for allied fighters. This was a costly white elephant, as was his high-speed twin-engined Me 210 fighter-bomber project which nearly made his company bankrupt. Nevertheless, he was certainly an innovator and was much admired by Hitler, who declared that he had "the skull of a genius", because of the Me 163 Komet rocket-powered fighter and the Me 262.

At the end of the war Messerschmitt was detained by the Americans for two years. In 1952 Messerschmitt became an aviation adviser to the Spanish government, and his Bf109 was produced in Spain as the Hispano Buchon for a number of years and was powered by Rolls-Royce Merlin engines. A factory was also constructed in Egypt to produce aircraft to Messerschmitt's designs. His German company, banned from building aircraft, produced prefabricated houses, sewing machines and, from 1953 to 1962, a series of bubble-cars: the KR 175 (1953–55) and the KR 200 (1955–62) were single-cylinder three-wheeled bubble-cars, and the Tiger (1958–62) was a twin-cylinder, 500cc four-wheeler. In 1958 Messerschmitt resumed aircraft construction in Germany and later became the Honorary Chairman of the merged Messerschmitt-Bölkow-Blohm company (now part of the Franco-German Eurocopter company).

[br]

Further Reading

van Ishoven, 1975, Messerschmitt. Aircraft Designer, London. J.Richard Smith, 1971, Messerschmitt. An Air-craft Album, London.

Anthony Pritchard, 1975, Messerschmitt, London (describes Messerschmitt aircraft).

JDS / CM

Watson, George Lennox

SUBJECT AREA: Ports and shipping

[br]

b. 1851 Glasgow, Scotland

d. 12 November 1904 Glasgow, Scotland

[br]

Scottish designer of some of the world's largest sailing and powered yachts, principal technical adviser to the Royal National Lifeboat Institution.

[br]

Almost all of Watson's life was spent in or around the City of Glasgow; his formal education was at the city's High School and at the age of 16 he entered the yard and drawing offices of Robert Napier's Govan Shipyard. Three years later he crossed the River Clyde and started work in the design office of the Pointhouse Shipyard of A. \& J.Inglis, and there received the necessary grounding of a naval architect. Dr John Inglis, the Principal of the firm, encouraged Watson, ensured that he was involved in advanced design work and allowed him to build a yacht in a corner of the shipyard in his spare time.

At the early age of 22 Watson set up as a naval architect with his own company, which is still in existence 120 years later. In 1875, assisted by two carpenters, Watson built the 5-ton yacht Vril to his own design. This vessel was the first with an integral heavy lead keel and its success ensured that design contracts flowed to him for new yachts for the Clyde and elsewhere. His enthusiasm and increasing skill were recognized and soon he was working on the ultimate: the America's Cup challengers Thistle, Valkyrie II, Valkyrie III and Shamrock II. The greatest accolade was the contract for the design of the J Class yacht Britannia, built by D. \& W.Henderson of Glasgow in 1893 for the Prince of Wales.

The company of G.L.Watson became the world's leading designer of steam yachts, and it was usual for it to offer a full design service as well as supervise construction in any part of the world. Watson took a deep interest in the work of the Royal National Lifeboat Institution and was its technical consultant for many years. One of his designs, the Watson Lifeboat, was a stalwart in its fleet for many years. In public life he lectured, took an active part in the debates on yacht racing and was recognized as Britain's leading designer.

[br]

Bibliography

1881, Progress in Yachting and Yacht-Building, Glasgow Naval and Marine Engineering Catalogue, London and Glasgow: Collins.

1894, The Evolution of the Modern Racing Yacht, Badminton Library of Sports and Pastimes, Vol. 1, London: Longmans Green, pp. 54–109.

Further Reading

John Irving, 1937, The King's Britannia. The Story of a Great Ship, London: Seeley Service.

FMW

DES

1) Компьютерная техника: Data Enhancement Software, Data Evaluation System

2) Морской термин: поставка с судна (delivered ex ship)

3) Медицина: диэтилстилбестрол (синтетический эстроген), покрытый стент, стент с элюирующим лекарственным покрытием, стент, стент, выделяющий лекарственный препарат, dry eye syndrome

4) Военный термин: Dental Equipment Set, Digital Exploitation System, Director of Educational Services, Director of Engineering Stores, Directorate of Educational Services, Directorate of Evaluation and Standardization, defense effective system, dispersed emergency station, dynamic environment simulator, Defence Equipment and Support

5) Техника: Department of Emergency Services, data engineering section, designer, diethyl sulfate, differential equation solver, digital exchange system, double-ended slot, draft environmental statement, dry etching system, dual exciter system, dynamic electro speaker

6) Сельское хозяйство: Desoxycholate

7) Химия: Di Ethyl Stilbestrol, diethyl succinate

8) Математика: устройство для решения дифференциальных уравнений (differential equation solver)

9) Юридический термин: Диплом о высшем образовании (Diplôme d'études supérieures - сокращение используется во франкоязычных странах, например, Швейцарии)

10) Финансы: (The Department of Economic Security) ДЭБ (например: through a partnership between Arizona's Health Care Cost Containment System (AHCCCS), the Arizona Department of Economic Security (DES),...)

11) Грубое выражение: Demented Electronic Shit

12) Телекоммуникации: (data encryption system) система шифрования данных, (data encryption standard) стандарт для кодирование данных, (data encryption standard) стандарт шифрования данных

13) Сокращение: Defence Engineering Service, Department of Education and Science, Design Environmental Simulator, Destination End Station, Dismounted Extension Switch, Distributed Energy Storage

14) Физиология: Describe

15) Электроника: Data Encryption Standard, Develop Etch Strip

16) Вычислительная техника: Data (Digital) Encryption Standard, Data Entry System, Destination End System, data digital encryption standard, Data Encryption Standard (NIST), Data Encryption Standard (Verschluesselung, NIST, IBM)

17) Нефть: derrick equipment set, dipole equatorial sounding, управление оценки и стандартизации (directorate of evaluation and standardization)

18) Генетика: diethylstilbestrol

19) Офтальмология: Синдром сухого глаза (Dry eye syndrome)

20) Иммунология: Drug Eluting Stent, стент с лекарственным покрытием

21) Канадский термин: Diploma of secondary studies

22) Фирменный знак: Duke Engineering & Services, Inc.

23) Деловая лексика: Direct Easy System, Discretionary Expenditure and Savings

24) Глоссарий компании Сахалин Энерджи: Delivered Ex Ship

25) Нефтегазовая техника дипольное экваториальное зондирование

26) Образование: Division for Exceptional Students

27) Сетевые технологии: Data Exchange System, Digital Encryption Standard, система ввода данных, система обмена данными, стандарт шифрования данных

28) ЕБРР: (delivered ex ship,... named port of destination) поставлено на борт судна в... (указать порт назначения)

29) Океанография: Division of Earth Sciences, Division of Environmental Sciences

30) Безопасность: Data Encryption System

31) Расширение файла: Data Entry Sheet

32) Нефть и газ: drilling equipment set

33) NYSE. Desc S. A. de C. V.

34) НАСА: Display Equipment Status

35) Международные перевозки: Delivered ex ship (Incoterms)