vessel equipment

vessel equipment

Рыбоводство: оборудование судна

vessel equipment

оборудование судна

vessel equipment

n

OCEAN avíos del buque m pl, equipo del barco m

vessel equipment

оборудование судна

vessel equipment

оборудование судна

vessel

n

LAB container recipiente m

MAR POLL ship embarcación f, barco m, buque m

OCEAN embarcación f, barco m

PHYS vasija f

TEXTIL recipiente m

TRANSP ship buque m, nave f

WATER TRANSP barco m, container recipiente m, ship nave f, buque m

vessel equipment

vessel location

vessel penetration

vessel support skirt

vessel traffic services

Fall-pipe vessel

Морской термин: судно для засыпки камнем (http://www.deme.be/equipment/rollingstone.htm)

Fallpipe vessel

Морской термин: судно для засыпки камнем (http://www.deme.be/equipment/rollingstone.htm)

fallpipe vessel

Морской термин: судно для засыпки камнем (http://www.deme.be/equipment/rollingstone.htm)

rescue vessel radio equipment

Нефть: радиооборудование для спасательных судов

sailing

['seɪlɪŋ] 1.

nome

1) (sport) vela f.

2) (departure)

the next sailing — la prossima partenza (della nave)

three sailings a day — tre uscite in barca al giorno

2.

modificatore [ instructor] di vela; [ club] nautico, velico; [ holiday] in barca a vela; [boat, vessel] a vela; [time, date] della partenza

* * *

noun (the activity or sport of navigating a ship or boat that has sails: Sailing is one of his hobbies.) navigazione (a vela)

* * *

sailing /ˈseɪlɪŋ/

n. (naut.)

1 [u] navigazione (a vela): plain sailing, navigazione agevole; (fig.) compito facile, gioco (fig.)

2 partenza ( di nave); imbarco: the list of sailings from Naples, la lista delle partenze da Napoli

3 [u] ( sport) lo sport della vela; la vela; velismo

● sailing board, quadro (o tabella) delle partenze ( di navi) □ a sailing boat, una barca a vela; una deriva □ sailing-boat race, gara velica □ sailing club, club velico □ sailing cruise, crociera (o viaggio) su nave a vela; ( sport) crociera di navigatore solitario □ sailing cruiser, cabinato a vela □ sailing directions, portolano □ sailing equipment, attrezzature per la vela □ sailing master, ufficiale di rotta; pilota d'altura □ a sailing ship (o a sailing vessel), una grande nave a vela; un veliero.

* * *

['seɪlɪŋ] 1.

nome

1) (sport) vela f.

2) (departure)

the next sailing — la prossima partenza (della nave)

three sailings a day — tre uscite in barca al giorno

2.

modificatore [ instructor] di vela; [ club] nautico, velico; [ holiday] in barca a vela; [boat, vessel] a vela; [time, date] della partenza

Cousteau, Jacques-Yves

SUBJECT AREA: Ports and shipping

[br]

b. 11 June 1910 Saint-André-de-Cubzac, France

[br]

French marine explorer who invented the aqualung.

[br]

He was the son of a country lawyer who became legal advisor and travelling companion to certain rich Americans. At an early age Cousteau acquired a love of travel, of the sea and of cinematography: he made his first film at the age of 13. After an interrupted education he nevertheless passed the difficult entrance examination to the Ecole Navale in Brest, but his naval career was cut short in 1936 by injuries received in a serious motor accident. For his long recuperation he was drafted to Toulon. There he met Philippe Tailliez, a fellow naval officer, and Frédéric Dumas, a champion spearfisher, with whom he formed a long association and began to develop his underwater swimming and photography. He apparently took little part in the Second World War, but under cover he applied his photographic skills to espionage, for which he was awarded the Légion d'honneur after the war.

Cousteau sought greater freedom of movement underwater and, with Emile Gagnan, who worked in the laboratory of Air Liquide, he began experimenting to improve portable underwater breathing apparatus. As a result, in 1943 they invented the aqualung. Its simple design and robust construction provided a reliable and low-cost unit and revolutionized scientific and recreational diving. Gagnan shunned publicity, but Cousteau revelled in the new freedom to explore and photograph underwater and exploited the publicity potential to the full.

The Undersea Research Group was set up by the French Navy in 1944 and, based in Toulon, it provided Cousteau with the Opportunity to develop underwater exploration and filming techniques and equipment. Its first aims were minesweeping and exploration, but in 1948 Cousteau pioneered an extension to marine archaeology. In 1950 he raised the funds to acquire a surplus US-built minesweeper, which he fitted out to further his quest for exploration and adventure and named Calypso. Cousteau also sought and achieved public acclaim with the publication in 1953 of The Silent World, an account of his submarine observations, illustrated by his own brilliant photography. The book was an immediate success and was translated into twenty-two languages. In 1955 Calypso sailed through the Red Sea and the western Indian Ocean, and the outcome was a film bearing the same title as the book: it won an Oscar and the Palme d'Or at the Cannes film festival. This was his favoured medium for the expression of his ideas and observations, and a stream of films on the same theme kept his name before the public.

Cousteau's fame earned him appointment by Prince Rainier as Director of the Oceanographie Institute in Monaco in 1957, a post he held until 1988. With its museum and research centre, it offered Cousteau a useful base for his worldwide activities.

In the 1980s Cousteau turned again to technological development. Like others before him, he was concerned to reduce ships' fuel consumption by harnessing wind power. True to form, he raised grants from various sources to fund research and enlisted technical help, namely Lucien Malavard, Professor of Aerodynamics at the Sorbonne. Malavard designed a 44 ft (13.4 m) high non-rotating cylinder, which was fitted onto a catamaran hull, christened Moulin à vent. It was intended that its maiden Atlantic crossing in 1983 should herald a new age in ship propulsion, with large royalties to Cousteau. Unfortunately the vessel was damaged in a storm and limped to the USA under diesel power. A more robust vessel, the Alcyone, was fitted with two "Turbosails" in 1985 and proved successful, with a 40 per cent reduction in fuel consumption. However, oil prices fell, removing the incentive to fit the new device; the lucrative sales did not materialize and Alcyone remained the only vessel with Turbosails, sharing with Calypso Cousteau's voyages of adventure and exploration. In September 1995, Cousteau was among the critics of the decision by the French President Jacques Chirac to resume testing of nuclear explosive devices under the Mururoa atoll in the South Pacific.

[br]

Principal Honours and Distinctions

Légion d'honneur. Croix de Guerre with Palm. Officier du Mérite Maritime and numerous scientific and artistic awards listed in such directories as Who's Who.

Bibliography

1953, The Silent World.

1972, The Ocean World of Jacques Cousteau, 21 vols.

He produced many other titles which are listed with his films in Who's Who.

Further Reading

R.Munson, 1991, Cousteau, the Captain and His World, London: Robert Hale (published in the USA 1989).

LRD

Siemens, Sir Charles William

SUBJECT AREA: Electricity, Metallurgy, Public utilities, Telecommunications

[br]

b. 4 April 1823 Lenthe, Germany

d. 19 November 1883 London, England

[br]

German/British metallurgist and inventory pioneer of the regenerative principle and open-hearth steelmaking.

[br]

Born Carl Wilhelm, he attended craft schools in Lübeck and Magdeburg, followed by an intensive course in natural science at Göttingen as a pupil of Weber. At the age of 19 Siemens travelled to England and sold an electroplating process developed by his brother Werner Siemens to Richard Elkington, who was already established in the plating business. From 1843 to 1844 he obtained practical experience in the Magdeburg works of Count Stolburg. He settled in England in 1844 and later assumed British nationality, but maintained close contact with his brother Werner, who in 1847 had co-founded the firm Siemens \& Halske in Berlin to manufacture telegraphic equipment. William began to develop his regenerative principle of waste-heat recovery and in 1856 his brother Frederick (1826–1904) took out a British patent for heat regeneration, by which hot waste gases were passed through a honeycomb of fire-bricks. When they became hot, the gases were switched to a second mass of fire-bricks and incoming air and fuel gas were led through the hot bricks. By alternating the two gas flows, high temperatures could be reached and considerable fuel economies achieved. By 1861 the two brothers had incorporated producer gas fuel, made by gasifying low-grade coal.

Heat regeneration was first applied in ironmaking by Cowper in 1857 for heating the air blast in blast furnaces. The first regenerative furnace was set up in Birmingham in 1860 for glassmaking. The first such furnace for making steel was developed in France by Pierre Martin and his father, Emile, in 1863. Siemens found British steelmakers reluctant to adopt the principle so in 1866 he rented a small works in Birmingham to develop his open-hearth steelmaking furnace, which he patented the following year. The process gradually made headway; as well as achieving high temperatures and saving fuel, it was slower than Bessemer's process, permitting greater control over the content of the steel. By 1900 the tonnage of open-hearth steel exceeded that produced by the Bessemer process.

In 1872 Siemens played a major part in founding the Society of Telegraph Engineers (from which the Institution of Electrical Engineers evolved), serving as its first President. He became President for the second time in 1878. He built a cable works at Charlton, London, where the cable could be loaded directly into the holds of ships moored on the Thames. In 1873, together with William Froude, a British shipbuilder, he designed the Faraday, the first specialized vessel for Atlantic cable laying. The successful laying of a cable from Europe to the United States was completed in 1875, and a further five transatlantic cables were laid by the Faraday over the following decade.

The Siemens factory in Charlton also supplied equipment for some of the earliest electric-lighting installations in London, including the British Museum in 1879 and the Savoy Theatre in 1882, the first theatre in Britain to be fully illuminated by electricity. The pioneer electric-tramway system of 1883 at Portrush, Northern Ireland, was an opportunity for the Siemens company to demonstrate its equipment.

[br]

Principal Honours and Distinctions

Knighted 1883. FRS 1862. Institution of Civil Engineers Telford Medal 1853. President, Institution of Mechanical Engineers 1872. President, Society of Telegraph Engineers 1872 and 1878. President, British Association 1882.

Bibliography

27 May 1879, British patent no. 2,110 (electricarc furnace).

1889, The Scientific Works of C.William Siemens, ed. E.F.Bamber, 3 vols, London.

Further Reading

W.Poles, 1888, Life of Sir William Siemens, London; repub. 1986 (compiled from material supplied by the family).

S.von Weiher, 1972–3, "The Siemens brothers. Pioneers of the electrical age in Europe", Transactions of the Newcomen Society 45:1–11 (a short, authoritative biography). S.von Weihr and H.Goetler, 1983, The Siemens Company. Its Historical Role in the

Progress of Electrical Engineering 1847–1980, English edn, Berlin (a scholarly account with emphasis on technology).

GW

CLEM

1) Военный термин: central laboratory equipment management

2) Техника: closed-loop ex-vessel machine

3) Биотехнология: Correlative light-electron microscopy

4) Ядерная физика: Closed Loop Ex-vessel Machine

5) Авиационная медицина: conjugate lateral eye movement

Clem

1) Военный термин: central laboratory equipment management

2) Техника: closed-loop ex-vessel machine

3) Биотехнология: Correlative light-electron microscopy

4) Ядерная физика: Closed Loop Ex-vessel Machine

5) Авиационная медицина: conjugate lateral eye movement

EV

1) Общая лексика: enterprise value (стоимость предприятия), встроенная стоимость (сокр. от "embedded value"; русс. перевод термина приводится по словарю: Финансовые рынки. Новый англо-русский толковый словарь / Под общ. ред. Т. Е. Апанасенко, М. А. Сторчевого. - СПб.: Экон)

2) Компьютерная техника: Equipment Variation

3) Американизм: Earned Value

4) Военный термин: Enforcement Vector, emergency vessel

5) Техника: effective value, emitter voltage, epitaxial varactor, error voltage, evaporator vessel, exhaust valve, Estimated Value

6) Шутливое выражение: Evil Vampire

7) Химия: Exceptional Vacuum

8) Математика: математическое ожидание (expected value)

9) Железнодорожный термин: Everett Railroad Company

10) Бухгалтерия: ожидаемое стоимостное выражение исхода (рассчитываемое как средневзвешенное возможных результатов (payoffs), причём в качестве веса используется оценка вероятности каждого результата)

11) Страхование: вложенная стоимость (сокр. от "embedded value"; русс. перевод термина взят из документа Гильдии актуариев (РФ))

12) Автомобильный термин: электромобиль (сокр. от "electric vehicle"; англ. термин взят из репортажа CNN)

13) Биржевой термин: enterprise value

14) Сокращение: Electric Vehicle

15) Электроника: Electronvolt

16) Вычислительная техника: expected value

17) Нефть: volumetric sweep efficiency

18) Космонавтика: внекорабельный

19) Транспорт: Engine Version

20) Экология: метод математического ожидания

21) Полимеры: efficient vulcanization

22) Программирование: External Value

23) Макаров: exposure value

24) Безопасность: EVC, расширенный сертификат подлинности

25) Военно-политический термин: Expert Visit (NATO Science Programme)

26) Электротехника: EV Certificate, Extended Validation Certificate

27) NYSE. Eaton Vance Corporation

28) НАСА: Extra Vehicular

29) Программное обеспечение: Edition Varies

30) Единицы измерений: Electron Volts

Ev

1) Общая лексика: enterprise value (стоимость предприятия), встроенная стоимость (сокр. от "embedded value"; русс. перевод термина приводится по словарю: Финансовые рынки. Новый англо-русский толковый словарь / Под общ. ред. Т. Е. Апанасенко, М. А. Сторчевого. - СПб.: Экон)

2) Компьютерная техника: Equipment Variation

3) Американизм: Earned Value

4) Военный термин: Enforcement Vector, emergency vessel

5) Техника: effective value, emitter voltage, epitaxial varactor, error voltage, evaporator vessel, exhaust valve, Estimated Value

6) Шутливое выражение: Evil Vampire

7) Химия: Exceptional Vacuum

8) Математика: математическое ожидание (expected value)

9) Железнодорожный термин: Everett Railroad Company

10) Бухгалтерия: ожидаемое стоимостное выражение исхода (рассчитываемое как средневзвешенное возможных результатов (payoffs), причём в качестве веса используется оценка вероятности каждого результата)

11) Страхование: вложенная стоимость (сокр. от "embedded value"; русс. перевод термина взят из документа Гильдии актуариев (РФ))

12) Автомобильный термин: электромобиль (сокр. от "electric vehicle"; англ. термин взят из репортажа CNN)

13) Биржевой термин: enterprise value

14) Сокращение: Electric Vehicle

15) Электроника: Electronvolt

16) Вычислительная техника: expected value

17) Нефть: volumetric sweep efficiency

18) Космонавтика: внекорабельный

19) Транспорт: Engine Version

20) Экология: метод математического ожидания

21) Полимеры: efficient vulcanization

22) Программирование: External Value

23) Макаров: exposure value

24) Безопасность: EVC, расширенный сертификат подлинности

25) Военно-политический термин: Expert Visit (NATO Science Programme)

26) Электротехника: EV Certificate, Extended Validation Certificate

27) NYSE. Eaton Vance Corporation

28) НАСА: Extra Vehicular

29) Программное обеспечение: Edition Varies

30) Единицы измерений: Electron Volts

clem

1) Военный термин: central laboratory equipment management

2) Техника: closed-loop ex-vessel machine

3) Биотехнология: Correlative light-electron microscopy

4) Ядерная физика: Closed Loop Ex-vessel Machine

5) Авиационная медицина: conjugate lateral eye movement

eV

1) Общая лексика: enterprise value (стоимость предприятия), встроенная стоимость (сокр. от "embedded value"; русс. перевод термина приводится по словарю: Финансовые рынки. Новый англо-русский толковый словарь / Под общ. ред. Т. Е. Апанасенко, М. А. Сторчевого. - СПб.: Экон)

2) Компьютерная техника: Equipment Variation

3) Американизм: Earned Value

4) Военный термин: Enforcement Vector, emergency vessel

5) Техника: effective value, emitter voltage, epitaxial varactor, error voltage, evaporator vessel, exhaust valve, Estimated Value

6) Шутливое выражение: Evil Vampire

7) Химия: Exceptional Vacuum

8) Математика: математическое ожидание (expected value)

9) Железнодорожный термин: Everett Railroad Company

10) Бухгалтерия: ожидаемое стоимостное выражение исхода (рассчитываемое как средневзвешенное возможных результатов (payoffs), причём в качестве веса используется оценка вероятности каждого результата)

11) Страхование: вложенная стоимость (сокр. от "embedded value"; русс. перевод термина взят из документа Гильдии актуариев (РФ))

12) Автомобильный термин: электромобиль (сокр. от "electric vehicle"; англ. термин взят из репортажа CNN)

13) Биржевой термин: enterprise value

14) Сокращение: Electric Vehicle

15) Электроника: Electronvolt

16) Вычислительная техника: expected value

17) Нефть: volumetric sweep efficiency

18) Космонавтика: внекорабельный

19) Транспорт: Engine Version

20) Экология: метод математического ожидания

21) Полимеры: efficient vulcanization

22) Программирование: External Value

23) Макаров: exposure value

24) Безопасность: EVC, расширенный сертификат подлинности

25) Военно-политический термин: Expert Visit (NATO Science Programme)

26) Электротехника: EV Certificate, Extended Validation Certificate

27) NYSE. Eaton Vance Corporation

28) НАСА: Extra Vehicular

29) Программное обеспечение: Edition Varies

30) Единицы измерений: Electron Volts

ev

1) Общая лексика: enterprise value (стоимость предприятия), встроенная стоимость (сокр. от "embedded value"; русс. перевод термина приводится по словарю: Финансовые рынки. Новый англо-русский толковый словарь / Под общ. ред. Т. Е. Апанасенко, М. А. Сторчевого. - СПб.: Экон)

2) Компьютерная техника: Equipment Variation

3) Американизм: Earned Value

4) Военный термин: Enforcement Vector, emergency vessel

5) Техника: effective value, emitter voltage, epitaxial varactor, error voltage, evaporator vessel, exhaust valve, Estimated Value

6) Шутливое выражение: Evil Vampire

7) Химия: Exceptional Vacuum

8) Математика: математическое ожидание (expected value)

9) Железнодорожный термин: Everett Railroad Company

10) Бухгалтерия: ожидаемое стоимостное выражение исхода (рассчитываемое как средневзвешенное возможных результатов (payoffs), причём в качестве веса используется оценка вероятности каждого результата)

11) Страхование: вложенная стоимость (сокр. от "embedded value"; русс. перевод термина взят из документа Гильдии актуариев (РФ))

12) Автомобильный термин: электромобиль (сокр. от "electric vehicle"; англ. термин взят из репортажа CNN)

13) Биржевой термин: enterprise value

14) Сокращение: Electric Vehicle

15) Электроника: Electronvolt

16) Вычислительная техника: expected value

17) Нефть: volumetric sweep efficiency

18) Космонавтика: внекорабельный

19) Транспорт: Engine Version

20) Экология: метод математического ожидания

21) Полимеры: efficient vulcanization

22) Программирование: External Value

23) Макаров: exposure value

24) Безопасность: EVC, расширенный сертификат подлинности

25) Военно-политический термин: Expert Visit (NATO Science Programme)

26) Электротехника: EV Certificate, Extended Validation Certificate

27) NYSE. Eaton Vance Corporation

28) НАСА: Extra Vehicular

29) Программное обеспечение: Edition Varies

30) Единицы измерений: Electron Volts