Department of Civil Engineering

Department of Architecture, Civil Engineering and Building Construction

Department of Architecture, Civil Engineering and Building Construction ARCH Fakultät f für Architektur und Bauwesen

Civil Engineering department

1. отдел гражданского строительства

 

отдел гражданского строительства
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]

Тематики

• нефтегазовая промышленность

EN

• Civil Engineering department

Civil Engineering department

отдел гражданского строительства

* * *

отдел гражданского строительства

Civil Engineering department

Бурение: отдел гражданского строительства

engineering

engineering [‚endʒɪ'nɪərɪŋ]

noun

(a) Technology ingénierie f, engineering m;

∎ to study engineering faire des études d'ingénieur;

∎ an incredible feat of engineering une merveille de la technique;

∎ an intricate piece of engineering une mécanique très complexe;

∎ agricultural engineering génie m agricole ou rural;

∎ civil engineering génie m civil;

∎ industrial engineering organisation f industrielle;

∎ light engineering petite mécanique f;

∎ marine engineering génie m maritime;

∎ mechanical engineering mécanique f;

∎ precision engineering mécanique f de précision;

∎ production engineering technique f de la production

(b) pejorative (planning) machinations fpl, manœuvres fpl;

∎ he had participated in the engineering of her downfall il avait participé aux machinations ou manœuvres qui ont conduit à sa ruine

►► Technology engineering consultancy (firm) compagnie f d'ingénieurs-conseils;

engineering consultant ingénieur-conseil m;

engineering department service m technique;

engineering and design department bureau m d'études;

engineering firm entreprise f de construction mécanique;

Railways engineering work travail m d'ingénierie

♦ engineering

♦ engineering /ɛndʒɪˈnɪərɪŋ/

A n. [u]

1 ingegneria: a degree in engineering, una laurea in ingegneria; a feat of engineering, un'impresa ingegneristica; un capolavoro dell'ingegneria; civil engineering, ingegneria civile; mechanical engineering, ingegneria meccanica

2 tecnica: radio engineering, radiotecnica

3 engineering; progettazione d'impianti

4 (biochim.) ingegneria; manipolazione: genetic engineering, ingegneria genetica

B a.

ingegneristico; di ingegneria: engineering department, ufficio tecnico; engineering firm, studio tecnico d'ingegneri; engineering industry, industria elettromeccanica; an engineering job, un lavoro come ingegnere

● (ass.) engineering insurance, assicurazione contro i rischi del montaggio industriale □ (chim.) engineering resin, tecnopolimero; resina per l'ingegneria.

department

1. отдел

2. ведомство; служба; департамент; управление

3. цех; отделение; участок

4. амер. министерство

— Civil Engineering department

— drilling department

— exploration department

— fire department

— inspection department

— research department

* * *

1. отдел; отделение

2. цех; мастерская; участок

— inspection department

— maintenance department

— production control department

— receiving inspection department

— reclamation department

— reliability control department

— reliability department

— repair department

— rig-building department

— rig-up department

— safety department

— service department

— standards department

— test department

* * *

1) отдел; отделение

2) цех; мастерская; участок

•

- drilling department

- exploration department
- gas production department
- inspection department
- maintenance department
- oil-and-gas production department
- production department
- production control department
- receiving inspection department
- reclamation department
- regional drilling department
- regional geological department
- reliability department
- reliability control department
- repair department
- rig-building department
- rig-up department
- safety department
- service department
- special construction department
- standards department
- test department

civil

1. a гражданский; относящийся к гражданам или гражданству

civil liberties — гражданские свободы

deprivation of civil rights — поражение в гражданских правах

civil engineering sector — сектор гражданского строительства

proceedings in civil causes — гражданское судопроизводство

civil disturbances — волнения среди гражданского населения

civil aviation department — управление гражданской авиации

2. a штатский, гражданский, невоенный; цивильный, партикулярный

civil aviation — гражданская авиация

civil list — цивильный лист

civil case — гражданское дело

civil claim — гражданский иск

civil law — гражданское право

civil war — гражданская война

3. a церк. мирской

civil righteousness — праведность мирянина

4. a календарный

civil day — календарные сутки

civil year — календарный год

5. a вежливый; корректный

to keep a civil tongue — держаться в рамках приличия, не дерзить

6. a цивилизованный

Синонимический ряд:

1. civic (adj.) civic; civilian; community; domestic; internal; local; municipal; national; non-military; political; public; secular

2. civilized (adj.) civilised; civilized; complaisant; cordial; courteous; genteel; mannerly; polite; refined; respectful; urbane; well-behaved; well-mannered

3. individual (adj.) individual; personal

Антонимический ряд:

churlish; civilised; discourteous; ill-mannered; rude; uncivil; uncivilized

civil

гражданский

deprivation of civil rights — поражение в гражданских правах

civil engineering sector — сектор гражданского строительства

proceedings in civil causes — гражданское судопроизводство

civil disturbances — волнения среди гражданского населения

civil aviation department — управление гражданской авиации

department

n

1) відділ, підрозділ (в установі, організації і т.п.)

2) факультет, кафедра (у навчальному закладі)

3) міністерство, відомство, департамент

•

- airport fire department

- astronomy department - civil aviation department - Compliance department - department of Homeland Security - department of the Navy - department of Transportation - drafting department - engineering department - fuel and oil supply department - General department of International Air Services of Aeroflot - inspection department - intelligence department - International Relations department of the Ministry of Civil Aviation - personnel department - service department - State department - traffic department - transport department

civil and architectural engineering department

Građevinsko-arhitektonski biro

* * *

građevinsko-arhitektonski biro

pont

c black pont [pɔ̃]

1. masculine noun

   a. bridge

• passer un pont to cross a bridge

• coucher sous les ponts to sleep rough

• faire un pont d'or à qn (pour l'employer) to offer sb a fortune (to join a company)

• couper les ponts avec qn to sever all links with sb

   b. (sur bateau) deck

• pont avant/arrière fore/rear deck

• tout le monde sur le pont ! all hands on deck!

   c. (dans garage) ramp

• mettre une voiture sur le pont to put a car on the ramp

   d. ( = vacances) extra day(s) off (taken between two public holidays or a public holiday and a weekend)

• faire le pont to make a long weekend of it → FÊTES LÉGALES

2. compounds

► pont aérien airlift

► les Ponts et Chaussées ( = école) prestigious school of civil engineering

• ingénieur des ponts et chaussées civil engineer ► pont flottant pontoon bridge

► pont à péage toll bridge

► pont suspendu suspension bridge

━━━━━━━━━━━━━━━━━

FAIRE LE PONT

The expression faire le pont refers to the practice of taking a Monday or Friday off to make a long weekend if a public holiday falls on a Tuesday or Thursday. The French commonly take an extra day off work to give four consecutive days' holiday at « l'Ascension », « le 14 juillet » and « le 15 août ».

* * *

pɔ̃
1.

nom masculin

1) Architecture, Construction, Bâtiment bridge

2) ( liens) link, tie

couper les ponts — to break off all contact

il a coupé les ponts avec sa famille — he has broken with his family

3) ( vacances) extended weekend ( including day(s) between a public holiday and a weekend)

faire le pont — to make a long weekend of it

lundi je fais le pont — I'm taking Monday off

4) Nautisme deck

bâtiment à deux ponts — two-decker

5) Automobile axle

6) Sport crab

faire le pont — to do the crab

2.

ponts nom masculin pluriel

ponts (et chaussées) — highways department

Phrasal Verbs:

- pont aérien

- pont basculant

- pont flottant

- pont levant

- pont roulant

- pont suspendu

- pont tournant

••

coucher sous les ponts — to sleep rough

il coulera beaucoup d'eau sous les ponts avant que... — it will be a long time before...

faire un pont d'or à quelqu'un — to offer somebody a large sum to accept a job

* * *

pɔ̃ nm

1) (= édifice) bridge

2) NAVIGATION deck

3) AUTOMOBILES

pont arrière — rear axle

pont avant — front axle

4) (locutions)

faire le pont — to take a long weekend

Nous faisons le pont pour la Pentecôte. — We're taking a long weekend for Whitsun.

faire un pont d'or à qn — to offer sb a fortune to take a job

* * *

pont

A nm

1 Archit, Constr bridge; franchir un pont to cross a bridge;

2 ( liens) fig link (avec with), tie (avec with); couper les ponts to break off all contact; il a coupé les ponts avec sa famille he has broken with his family;

3 ( vacances) extended weekend (including day(s) between a public holiday and a weekend); faire le pont to make a long weekend of it; lundi je fais le pont I'm taking Monday off;

4 Naut deck; tout le monde sur le pont! all hands on deck!; pont principal/supérieur main/upper deck; pont avant/pont arrière foredeck/reardeck; bâtiment à deux ponts two-decker;

5 Aut axle; pont avant/arrière front/rear axle;

6 Sport crab; faire le pont to do the crab;

7 Électrotech bridge (circuit).

B ponts nmpl ponts (et chaussées) highways department; ⇒ école.

Composés

pont aérien airlift; pont aux ânes lit pons asinorum; fig truism; pont basculant bascule bridge; pont de bateaux pontoon bridge; pont à béquilles portal bridge; pont élévateur hydraulic ramp; pont d'envol flight deck; pont flottant pontoon bridge; pont de graissage hydraulic ramp; pont levant vertical-lift bridge; pont mobile movable bridge; pont à péage toll bridge; pont roulant (overhead) travelling^GB crane; pont suspendu suspension bridge; pont thermique thermal bridge; pont tournant swing bridge; pont transbordeur transporter bridge; Pont des Soupirs Bridge of Sighs.

Idiomes

coucher sous les ponts to sleep rough, to be a tramp; il coulera beaucoup d'eau sous les ponts avant que… it will be a long time before…; brûler les ponts derrière soi to burn one's boats ou bridges; faire un pont d'or à qn to offer sb a large sum to accept a job.

[pɔ̃] nom masculin

1. TRAVAUX PUBLICS bridge

dormir ou vivre sous les ponts to sleep under the arches (UK), to be homeless

pont mobile/suspendu movable/suspension bridge

pont autoroutier (motorway (UK)) ou freeway (US) flyover

pont à bascule ou basculant bascule ou balance bridge

pont ferroviaire railway bridge

pont levant lift bridge

pont à péage toll-bridge

pont routier road bridge

pont tournant

a. [routier] swing bridge

b. [ferroviaire] turntable

faire/promettre un pont d'or à quelqu'un to offer/to promise somebody a fortune (so that they'll take on a job)

jeter un pont to build bridges (figuré)

se porter ou être solide comme le Pont-Neuf to be as fit as a fiddle

le pont du Gard enormous Roman aqueduct at Nîmes

‘le Pont de la rivière Kwaï’ Lean ‘Bridge On The River Kwai’

les Ponts nickname of the École des Ponts et Chaussées

2. NAUTIQUE deck

bateau à deux/trois ponts two/three decker

pont inférieur/principal lower/main deck

pont arrière aft ou after deck

pont avant foredeck

pont promenade promenade deck

pont supérieur upper ou top deck

tout le monde sur le pont!

a. [levez-vous] everybody up!

b. [mettez-vous au travail] let's get down to business!

3. [week-end] long weekend

[jour] day off between a national holiday and a weekend

faire le pont [employé] to take the intervening working day or days off

le 11 novembre tombe un jeudi, je vais faire le pont the 11th of November is on Thursday, I'll take Friday off (and have a long weekend)

4. [structure de manutention]

pont élévateur ou de graissage garage ramp, car lift, elevator platform

pont de chargement loading platform

pont roulant gantry ou travelling crane

5. AUTOMOBILE

pont arrière rear axle (and drive)

6. AÉRONAUTIQUE

pont aérien airlift

7. GÉOMÉTRIE

pont aux ânes

a. (sens propre) pons asinorum

b. (figuré) old chestnut

8. MILITAIRE

pont de bateaux pontoon bridge

Ponts et Chaussées nom masculin pluriel

les Ponts et Chaussées

a. ADMINISTRATION Department of Civil Engineering

b. ÉDUCATION College of Civil Engineering

Elder, John

SUBJECT AREA: Ports and shipping, Steam and internal combustion engines

[br]

b. 9 March 1824 Glasgow, Scotland

d. 17 September 1869 London, England

[br]

Scottish engineer who introduced the compound steam engine to ships and established an important shipbuilding company in Glasgow.

[br]

John was the third son of David Elder. The father came from a family of millwrights and moved to Glasgow where he worked for the well-known shipbuilding firm of Napier's and was involved with improving marine engines. John was educated at Glasgow High School and then for a while at the Department of Civil Engineering at Glasgow University, where he showed great aptitude for mathematics and drawing. He spent five years as an apprentice under Robert Napier followed by two short periods of activity as a pattern-maker first and then a draughtsman in England. He returned to Scotland in 1849 to become Chief Draughtsman to Napier, but in 1852 he left to become a partner with the Glasgow general engineering company of Randolph Elliott \& Co. Shortly after his induction (at the age of 28), the engineering firm was renamed Randolph Elder \& Co.; in 1868, when the partnership expired, it became known as John Elder \& Co. From the outset Elder, with his partner, Charles Randolph, approached mechanical (especially heat) engineering in a rigorous manner. Their knowledge and understanding of entropy ensured that engine design was not a hit-and-miss affair, but one governed by recognition of the importance of the new kinetic theory of heat and with it a proper understanding of thermodynamic principles, and by systematic development. In this Elder was joined by W.J.M. Rankine, Professor of Civil Engineering and Mechanics at Glasgow University, who helped him develop the compound marine engine. Elder and Randolph built up a series of patents, which guaranteed their company's commercial success and enabled them for a while to be the sole suppliers of compound steam reciprocating machinery. Their first such engine at sea was fitted in 1854 on the SS Brandon for the Limerick Steamship Company; the ship showed an improved performance by using a third less coal, which he was able to reduce still further on later designs.

Elder developed steam jacketing and recognized that, with higher pressures, triple-expansion types would be even more economical. In 1862 he patented a design of quadruple-expansion engine with reheat between cylinders and advocated the importance of balancing reciprocating parts. The effect of his improvements was to greatly reduce fuel consumption so that long sea voyages became an economic reality.

His yard soon reached dimensions then unequalled on the Clyde where he employed over 4,000 workers; Elder also was always interested in the social welfare of his labour force. In 1860 the engine shops were moved to the Govan Old Shipyard, and again in 1864 to the Fairfield Shipyard, about 1 mile (1.6 km) west on the south bank of the Clyde. At Fairfield, shipbuilding was commenced, and with the patents for compounding secure, much business was placed for many years by shipowners serving long-distance trades such as South America; the Pacific Steam Navigation Company took up his ideas for their ships. In later years the yard became known as the Fairfield Shipbuilding and Engineering Company Ltd, but it remains today as one of Britain's most efficient shipyards and is known now as Kvaerner Govan Ltd.

In 1869, at the age of only 45, John Elder was unanimously elected President of the Institution of Engineers and Shipbuilders in Scotland; however, before taking office and giving his eagerly awaited presidential address, he died in London from liver disease. A large multitude attended his funeral and all the engineering shops were silent as his body, which had been brought back from London to Glasgow, was carried to its resting place. In 1857 Elder had married Isabella Ure, and on his death he left her a considerable fortune, which she used generously for Govan, for Glasgow and especially the University. In 1883 she endowed the world's first Chair of Naval Architecture at the University of Glasgow, an act which was reciprocated in 1901 when the University awarded her an LLD on the occasion of its 450th anniversary.

[br]

Principal Honours and Distinctions

President, Institution of Engineers and Shipbuilders in Scotland 1869.

Further Reading

Obituary, 1869, Engineer 28.

1889, The Dictionary of National Biography, London: Smith Elder \& Co. W.J.Macquorn Rankine, 1871, "Sketch of the life of John Elder" Transactions of the

Institution of Engineers and Shipbuilders in Scotland.

Maclehose, 1886, Memoirs and Portraits of a Hundred Glasgow Men.

The Fairfield Shipbuilding and Engineering Works, 1909, London: Offices of Engineering.

P.M.Walker, 1984, Song of the Clyde, A History of Clyde Shipbuilding, Cambridge: PSL.

R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge: Cambridge University Press (covers Elder's contribution to the development of steam engines).

RLH / FMW

отдел гражданского строительства

1. Civil Engineering department

 

отдел гражданского строительства
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]

Тематики

• нефтегазовая промышленность

EN

• Civil Engineering department

Rankine, William John Macquorn

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 5 July 1820 Edinburgh, Scotland

d. 1872

[br]

Scottish engineer and educator

[br]

Rankine was educated at Ayr Academy and Glasgow High School, although he appears to have learned much of his basic mathematics and physics through private study. He attended Edinburgh University and then assisted his father, who was acting as Superintendent of the Edinburgh and Dalkeith Railway. This introduction to engineering practice was followed in 1838 by his appointment as a pupil to Sir John MacNeill, and for the next four years he served under MacNeill on his Irish railway projects. While still in his early twenties, Rankine presented pioneering papers on metal fatigue and other subjects to the Institution of Civil Engineers, for which he won a prize, but he appears to have resigned from the Civils in 1857 after an argument because the Institution would not transfer his Associate Membership into full Membership. From 1844 to 1848 Rankine worked on various projects for the Caledonian Railway Company, but his interests were becoming increasingly theoretical and a series of distinguished papers for learned societies established his reputation as a leading scholar in the new science of thermodynamics. He was elected Fellow of the Royal Society in 1853. At the same time, he remained intimately involved with practical questions of applied science, in shipbuilding, marine engineering and electric telegraphy, becoming associated with the influential coterie of fellow Scots such as the Thomson brothers, Napier, Elder, and Lewis Gordon. Gordon was then the head of a large and successful engineering practice, but he was also Regius Professor of Engineering at the University of Glasgow, and when he retired from the Chair to pursue his business interests, Rankine, who had become his Assistant, was appointed in his place.

From 1855 until his premature death in 1872, Rankine built up an impressive engineering department, providing a firm theoretical basis with a series of text books that he wrote himself and most of which remained in print for many decades. Despite his quarrel with the Institution of Civil Engineers, Rankine took a keen interest in the institutional development of the engineering profession, becoming the first President of the Institution of Engineers and Shipbuilders in Scotland, which he helped to establish in 1857. Rankine campaigned vigorously for the recognition of engineering studies as a full university degree at Glasgow, and he achieved this in 1872, the year of his death. Rankine was one of the handful of mid-nineteenth century engineers who virtually created engineering as an academic discipline.

[br]

Principal Honours and Distinctions

FRS 1853. First President, Institution of Engineers and Shipbuilders in Scotland, 1857.

Bibliography

1858, Manual of Applied Mechanics.

1859, Manual of the Steam Engine and Other Prime Movers.

1862, Manual of Civil Engineering.

1869, Manual of Machinery and Millwork.

Further Reading

1873, Proceedings of the Institution of Civil Engineers 21.

J.Small, 1957, "The institution's first president", Proceedings of the Institution of Engineers and Shipbuilders in Scotland: 687–97.

H.B.Sutherland, 1972, Rankine. His Life and Times.

AB

Gooch, Sir Daniel

SUBJECT AREA: Civil engineering, Land transport, Railways and locomotives, Telecommunications

[br]

b. 24 August 1816 Bedlington, Northumberland, England

d. 15 October 1889 Clewer Park, Berkshire, England

[br]

English engineer, first locomotive superintendent of the Great Western Railway and pioneer of transatlantic electric telegraphy.

[br]

Gooch gained experience as a pupil with several successive engineering firms, including Vulcan Foundry and Robert Stephenson \& Co. In 1837 he was engaged by I.K. Brunel, who was then building the Great Western Railway (GWR) to the broad gauge of 7 ft 1/4 in. (2.14 m), to take charge of the railway's locomotive department. He was just 21 years old. The initial locomotive stock comprised several locomotives built to such extreme specifications laid down by Brunel that they were virtually unworkable, and two 2–2–2 locomotives, North Star and Morning Star, which had been built by Robert Stephenson \& Co. but left on the builder's hands. These latter were reliable and were perpetuated. An enlarged version, the "Fire Fly" class, was designed by Gooch and built in quantity: Gooch was an early proponent of standardization. His highly successful 4–2–2 Iron Duke of 1847 became the prototype of GWR express locomotives for the next forty-five years, until the railway's last broad-gauge sections were narrowed. Meanwhile Gooch had been largely responsible for establishing Swindon Works, opened in 1843. In 1862 he designed 2–4–0 condensing tank locomotives to work the first urban underground railway, the Metropolitan Railway in London. Gooch retired in 1864 but was then instrumental in arranging for Brunel's immense steamship Great Eastern to be used to lay the first transatlantic electric telegraph cable: he was on board when the cable was successfully laid in 1866. He had been elected Member of Parliament for Cricklade (which constituency included Swindon) in 1865, and the same year he had accepted an invitation to become Chairman of the Great Western Railway Company, which was in financial difficulties; he rescued it from near bankruptcy and remained Chairman until shortly before his death. The greatest engineering work undertaken during his chairmanship was the boring of the Severn Tunnel.

[br]

Principal Honours and Distinctions

Knighted 1866 (on completion of transatlantic telegraph).

Bibliography

1972, Sir Daniel Gooch, Memoirs and Diary, ed. R.B.Wilson, with introd. and notes, Newton Abbot: David \& Charles.

Further Reading

A.Platt, 1987, The Life and Times of Daniel Gooch, Gloucester: Alan Sutton (puts Gooch's career into context).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Ian Allan (contains a good short biography).

J.Kieve, 1973, The Electric Telegraph, Newton Abbot: David \& Charles, pp. 112–5.

PJGR

DCS

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35) Общественная организация: Downriver Community Services

36) Чат: Database Connection Services

37) NYSE. Doncasters, P. L. C.

38) Аэропорты: Doncaster, England, UK

39) Хобби: Doll Collectors Society

40) Федеральное бюро расследований: Domestic Contact Service of the CIA

DCs

1) Компьютерная техника: Data Converting System, Desktop Color System, Digital Command Signal, Distributed Computing Suite, digital cross-connect system

2) Авиация: Departure Control System, автоматизированная система контроля отправки пассажиров, Disignated Certification Specialist, double channel simplex, система управления отправками

3) Военный термин: Defence Communications System, Defense Communications System, Defense Construction Service, Defense Courier Service, Deputy Chief of Staff, Aviation, Deputy Chief of Staff, Manpower, Digital Cell Site, Director, Comptroller Systems, Division Cavalry Squadron, Dynamic Coordinate System, data collection system, data communications system, data control system, data conversion system, deputy chief of staff, design change summary, destruct command system, digital command system, digital communications system, digital control system, direction center, standby, division clearing station, drone control system, Department of Combat Support (U. S. Army Command and General Staff College)

4) Техника: Defense communications service, data conditioning system, data gathering system, deflection coil set, diagnostic control store, differential cross-section, digital access and cross connect system, digital countdown system, direct couple system, direct-current sensor, director comptroller system, document control system, double-channel-simplex, double-cotton single-silk insulation, РСУ (распределенная система управления), АСУ ТП

5) Химия: Распределенная система управления, РСУ (Distributed control systems (DCS) are used in industrial and civil engineering applications to monitor and control distributed equipment with remote human intervention.)

6) Религия: Divorce Care And Support

7) Грубое выражение: Damn Chicken Spies

8) Оптика: digital access and cross-connect systems, dual-cone scanner

9) Полиграфия: (desktop color separation) формат представления изображения, включающий четыре цветоделенных PostScript-файла в CMYK

10) Политика: Democratic Clinton Supporter

11) Телекоммуникации: Digital Cellular System, Digital Cross Connect, цифровая сотовая связь

12) Сокращение: Data Collection Site (MODS report abbreviation), Defence Communications System (USA), Defense Construction Service (Denmark), Defense Courier Service (USA), Depot Computer System, Digital Camera System, Digital Computer System, Direct Commercial Sales, Direct Connect System (transports letters from the AFCS directly to a DBCS/OSS - planned for year 2004)

13) Университет: Department Of Campus Safety

14) Электроника: Dichlorosilane, Digitally Controlled Squelch

15) Вычислительная техника: desktop color separation, digital color separation, distributed computer system, Digital Colour System (Adobe, Photoshop), Digital Cross-connect System (DEC), Defense Communications System (Mil., USA), Digital Cellular System (Mobile-Systems), Data sharing Control System (NEC), Digital Control System (NEC)

16) Нефть: display and control system, drill collars, safeguarding system and telecommunication

17) Связь: Digital Communications Standard/System

18) Фирменный знак: Diamond Computer Systems

19) Экология: система сбора данных, система сбора информации

20) Глоссарий компании Сахалин Энерджи: РСК (Distributed Control System), распределительная система контроля (Distributed Control System)

21) Производство: (Distributed Control System) Распределенная система управления

22) Сетевые технологии: Digital Crosspoint Switch, data communication system, distributed computing system, distributed control system, распределённая система управления, сигнал цифровой команды, система передачи данных, устройство передачи данных

23) Автоматика: diagnostic communication system, display control system

24) Телефония: Data Collaboration Server

25) Сахалин Р: Design Contract Specific, Distribution Control System

26) Сахалин А: automated drilling process control system, data. collection system

27) Химическое оружие: Data Collection Sheet

28) Авиационная медицина: decompression sickness

29) Макаров: differential cross section

30) Безопасность: Device Control String, Disaster Control Squad

31) Расширение файла: Desktop Color Separation file, Direct Coupled System, Quark Desktop Color Separation EPS file Bitmap graphics, Datafile (ACT! Activity Files)

32) Энергосистемы: (ПТК - программно-технический комплекс), распределенная система контроля

33) Нефть и газ: УБТ

34) Карачаганак: direct control system

35) Общественная организация: Downriver Community Services

36) Чат: Database Connection Services

37) NYSE. Doncasters, P. L. C.

38) Аэропорты: Doncaster, England, UK

39) Хобби: Doll Collectors Society

40) Федеральное бюро расследований: Domestic Contact Service of the CIA

Eiffel, Alexandre Gustave

SUBJECT AREA: Civil engineering

[br]

b. 15 December 1832 Dijon, France

d. 27 December 1923 Paris, France

[br]

French engineer, best known for the famous tower in Paris that bears his name.

[br]

During his long life Eiffel, together with a number of architects, was responsible for the design and construction of a wide variety of bridges, viaducts, harbour installations, exhibition halls, galleries and department stores; he set up his own firm in 1867 to handle such construction. Of particular note were his great arched bridges, such as the 530 ft (162 m) span arch over the River Douro at Oporto in Portugal (1877–9) and the 550 ft (168 m) span of the Pont de Garabit over the Truyère in France (1880–4). He was responsible in 1884 for the protective iron-work for the Statue of Liberty in New York and, a year later, for the great dome over the Nice Observatory. In 1876 he had collaborated with Boileau to build the Bon Marché department store in Paris. The predominant material for all these structures was iron, and, in some cases glass was important. The famous Eiffel Tower in Paris is entirely of wrought iron, and the legs are supported on masonry piers that are each set into concrete beneath the ground. The idea of the tower was first conceived in 1884 by Maurice Koechlin and Emile Nougier, and Eiffel won a competition for the commission to built the structure. His imaginative and practical scheme was for a strong lightweight construction 984 ft (300 m) high, with its 12,000 sections to be prefabricated and riveted together largely before erection; the open, perforated design reduced the problems of wind resistance. The tower was constructed on schedule by 1889 to commemorate the centenary of the outbreak of the French Revolution and was the tallest structure in the world until the erection of the Empire State Building in New York in 1930–2.

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Further Reading

J.Harriss, 1975, The Tallest Tower: Eiffel and the Belle Epoque, Boston: Hough ton Mifflin.

F.Poncetton, 1939, Eiffel: Le Magicien du Fer, Paris: Tournelle.

DY

Ricardo, Sir Harry Ralph

SUBJECT AREA: Aerospace, Steam and internal combustion engines

[br]

b. 26 January 1885 London, England

d. 18 May 1974 Graffham, Sussex, England

[br]

English mechanical engineer; researcher, designer and developer of internal combustion engines.

[br]

Harry Ricardo was the eldest child and only son of Halsey Ricardo (architect) and Catherine Rendel (daughter of Alexander Rendel, senior partner in the firm of consulting civil engineers that later became Rendel, Palmer and Tritton). He was educated at Rugby School and at Cambridge. While still at school, he designed and made a steam engine to drive his bicycle, and by the time he went up to Cambridge in 1903 he was a skilled craftsman. At Cambridge, he made a motor cycle powered by a petrol engine of his own design, and with this he won a fuel-consumption competition by covering almost 40 miles (64 km) on a quart (1.14 1) of petrol. This brought him to the attention of Professor Bertram Hopkinson, who invited him to help with research on turbulence and pre-ignition in internal combustion engines. After leaving Cambridge in 1907, he joined his grandfather's firm and became head of the design department for mechanical equipment used in civil engineering. In 1916 he was asked to help with the problem of loading tanks on to railway trucks. He was then given the task of designing and organizing the manufacture of engines for tanks, and the success of this enterprise encouraged him to set up his own establishment at Shoreham, devoted to research on, and design and development of, internal combustion engines.

Leading on from the work with Hopkinson were his discoveries on the suppression of detonation in spark-ignition engines. He noted that the current paraffinic fuels were more prone to detonation than the aromatics, which were being discarded as they did not comply with the existing specifications because of their high specific gravity. He introduced the concepts of "highest useful compression ratio" (HUCR) and "toluene number" for fuel samples burned in a special variable compression-ratio engine. The toluene number was the proportion of toluene in heptane that gave the same HUCR as the fuel sample. Later, toluene was superseded by iso-octane to give the now familiar octane rating. He went on to improve the combustion in side-valve engines by increasing turbulence, shortening the flame path and minimizing the clearance between piston and head by concentrating the combustion space over the valves. By these means, the compression ratio could be increased to that used by overhead-valve engines before detonation intervened. The very hot poppet valve restricted the advancement of all internal combustion engines, so he turned his attention to eliminating it by use of the single sleeve-valve, this being developed with support from the Air Ministry. By the end of the Second World War some 130,000 such aero-engines had been built by Bristol, Napier and Rolls-Royce before the piston aero-engine was superseded by the gas turbine of Whittle. He even contributed to the success of the latter by developing a fuel control system for it.

Concurrent with this was work on the diesel engine. He designed and developed the engine that halved the fuel consumption of London buses. He invented and perfected the "Comet" series of combustion chambers for diesel engines, and the Company was consulted by the vast majority of international internal combustion engine manufacturers. He published and lectured widely and fully deserved his many honours; he was elected FRS in 1929, was President of the Institution of Mechanical Engineers in 1944–5 and was knighted in 1948. This shy and modest, though very determined man was highly regarded by all who came into contact with him. It was said that research into internal combustion engines, his family and boats constituted all that he would wish from life.

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Principal Honours and Distinctions

Knighted 1948. FRS 1929. President, Institution of Mechanical Engineers 1944–5.

Bibliography

1968, Memo \& Machines. The Pattern of My Life, London: Constable.

Further Reading

Sir William Hawthorne, 1976, "Harry Ralph Ricardo", Biographical Memoirs of Fellows of the Royal Society 22.

JB