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1 hydraulic engineering construction
Англо-русский строительный словарь > hydraulic engineering construction
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2 hydraulic engineering tunnel
English-Russian big medical dictionary > hydraulic engineering tunnel
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3 steel construction for hydraulic engineering
English-german engineering dictionary > steel construction for hydraulic engineering
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4 construction
1) строительство; стройка; постройка;2) конструкция; сооружение; строение; здание•- construction of diagram - construction of penetration macadam - construction of traffic facilities - adobe construction - agricultural building construction - airfield construction - air-supported construction - airtight construction - aseismic constructions - avalanche-protection construction - balanced construction of plywood - balloon frame construction - basic construction - BBS construction - beam and girder construction - bearing-wall construction - block construction - brick construction - bridge construction - building construction - cable constructions - cage construction - capital construction - carry-over construction - cast-in-place construction - cast-in-situ constructions - catenary construction - civil engineering construction - civilian construction - completion of construction - complex construction - composite construction - concrete construction - concrete-bent construction - contract construction - cost of construction - cross-wall construction - dam construction - date of completion of construction - delay in construction - delay in the construction of a project - double-skin construction - dry construction - dry-wall construction - dust-tight construction - environment-oriented home construction - fast construction - feasibility of the construction of a project - fill construction - fireproof construction - fixed period of construction - frame construction - fully-prefabricated construction - girderless construction - glued construction - high-rise construction - hipped-plate construction - hollow-wood construction - housing construction - hydraulic engineering construction - incombustible construction - incompleted construction project - individual housing construction - industrial building construction - industrialized construction - industrialized construction with apartments modules - integrated construction - laminated construction - large-panel constructions - large-sized block constructions - layer-built construction - levee construction - lift-slab construction - lightweight construction - load-carrying construction - lumber construction - lumber core construction - masonry construction - metal construction - methods of construction - mixed construction - modular construction - municipal construction - multiply construction - mushroom construction - mushroom slab construction - non-fireproof construction - ordinary construction - organization of construction - pace of construction - pan construction - panel construction - panelled construction - partially-prestressed composite construction - period of construction - plastic construction - plated construction - platform frame construction - pneumatic construction - portable unit construction - post-and-beam construction - posttensioned construction - power and water supply of the construction - power plant construction - pre-assembled member construction - precast construction - precast and cast-in-situ construction - precast concrete construction - precast panel construction - prefabricated construction - prefabricated demountable constructions - preload construction of tank - pre-posttensioned concrete construction - prestressed constructions - pretensioned concrete constructions reinforced with wires - pretensioned concrete constructions - project construction - protected metal construction - rammed earth construction - rammed loam construction - region of construction - reinforced brick construction - reinforced concrete construction - reinforced masonry construction - road construction - road-mix construction - sandwich construction - section construction - sectional construction - shell construction - simple in construction - skeleton construction - slow-burning construction - space grid constructions - stage construction - steel construction - steel-frame construction - steel-plate constructions - stone constructions - supporting construction - suspended constructions - temporary construction - thin-shell construction - thin-slab construction - thin-wall construction - total-prefabricated construction - two-dimensional construction - under construction - unit construction - urban construction - veneered construction - wall-bearing construction - water-front construction - welded construction - winter building construction - wood construction -
5 engineering
- engineering
- n1. техника; технология
2. строительство
3. проектирование; разработка; конструирование
- acoustical engineering
- aerodrome engineering
- agricultural engineering
- airport engineering
- architectural engineering
- bridge engineering
- building construction engineering
- building engineering
- civil engineering
- climatic engineering
- cold-region engineering
- computer-aided engineering
- environmental engineering
- foundation engineering
- geotechnical engineering
- heat engineering
- highway engineering
- human engineering
- hydraulic engineering
- hydropower engineering
- illumination engineering
- industrial engineering
- job engineering
- lighting engineering
- management engineering
- municipal engineering
- piling engineering
- power engineering
- river engineering
- sanitary engineering
- site engineering
- soils engineering
- steel construction engineering
- structural engineering
- traffic engineering
- upstream engineering
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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6 engineering
1) техника; техническое обеспечение; технология3) инжиниринг; строительство; проектирование; разработка; конструирование•- agricultural engineering - architectural engineering - basic engineering - bridge engineering - building engineering - civil engineering - construction engineering - design engineering - detailed engineering - drainage engineering - earthquake engineering - electric power engineering - electrical power engineering - environmental engineering - fire engineering - harbour engineering - heat engineering - highway engineering - hydraulic engineering - industrial engineering - lighting engineering - military engineering - municipal engineering - refrigerating engineering - research engineering - river engineering - safety engineering - safety-first engineering - sanitary engineering - solar power engineering - space engineering - structural engineering - sun-power engineering - tunnel engineering - waterpower engineering - water-supply engineering - windpower engineering* * *1. техника; технология2. строительство3. проектирование; разработка; конструирование- acoustical engineering
- aerodrome engineering
- agricultural engineering
- airport engineering
- architectural engineering
- bridge engineering
- building construction engineering
- building engineering
- civil engineering
- climatic engineering
- cold-region engineering
- computer-aided engineering
- environmental engineering
- foundation engineering
- geotechnical engineering
- heat engineering
- highway engineering
- human engineering
- hydraulic engineering
- hydropower engineering
- illumination engineering
- industrial engineering
- job engineering
- lighting engineering
- management engineering
- municipal engineering
- piling engineering
- power engineering
- river engineering
- sanitary engineering
- site engineering
- soils engineering
- steel construction engineering
- structural engineering
- traffic engineering
- upstream engineering -
7 engineering
1. техника; технологияwelding engineering — сварочная техника; сварка
2. строительство3. проектирование; разработка; конструированиеarchitectural engineering — проектирование строительных конструкций; строительное проектирование зданий; разработка конструктивных решений зданий; разработка строительной части проекта
civil engineering — гражданское строительство; строительство зданий и сооружений
4. технические средства и методы охраны окружающей среды5. техника кондиционирования воздуха6. гидротехника7. гидротехническое строительство8. промышленное строительство9. организация производства на промышленных предприятияхjob engineering — организация труда, организация производства работ
piling engineering — свайное дело; проектирование и устройство свайных фундаментов
site engineering — геодезические работы на стройплощадке; строительная геодезия
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8 engineering
1) техника2) технология3) разработка; проектирование; конструирование•-
acoustic engineering
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aerodrome engineering
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aeronautical engineering
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architectural engineering
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atomic power engineering
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bridge engineering
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building engineering
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cinematographic engineering
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circuit engineering
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civil engineering
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clothing engineering
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combustion engineering
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communication engineering
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computation engineering
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computer engineering
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computer-aided engineering
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construction engineering
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control engineering
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cryogenic engineering
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design engineering
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development engineering
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drainage engineering
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earthquake engineering
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electrical engineering
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electronic engineering
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environmental engineering
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fire engineering
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food engineering
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foundation engineering
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fuel engineering
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genetic engineering
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geologic engineering
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harbor engineering
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heat engineering
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heat-power engineering
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high-voltage engineering
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highway engineering
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human engineering
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hydraulic engineering
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hydropower engineering
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illumination engineering
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industrial engineering
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irrigation engineering
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knowledge engineering
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lighting engineering
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locomotive engineering
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manufacturing engineering
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microwave engineering
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mining engineering
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municipal engineering
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nuclear engineering
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nuclear-power engineering
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optical engineering
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package engineering
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petroleum engineering
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photographic engineering
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power engineering
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process engineering
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production engineering
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quality engineering
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radar engineering
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radio engineering
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railroad engineering
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reactor engineering
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refractory engineering
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refrigerating engineering
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reliability engineering
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research engineering
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reservoir engineering
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reverse engineering
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river engineering
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safety engineering
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sanitary engineering
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sea floor engineering
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semiconductor engineering
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software engineering
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solar engineering
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solar power engineering
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structural engineering
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sun power engineering
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systems engineering
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system engineering
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tunnel engineering
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vacuum engineering
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warp knitting engineering
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water engineering
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water-power engineering
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water-supply engineering
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welding engineering
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wind-power engineering -
9 engineering
[ˌenʤɪ'nɪərɪŋ] 1. прил.1) прикладной ( о науке)2) технический, инженерный2. сущ.engineering data — технические данные, технические параметры
1)а) инженерное искусство; машиностроение- civil engineering
- heating engineering
- highway engineering
- hydraulic engineering
- marine engineering
- mechanical engineering
- sanitary engineering
- systems engineering
- traffic engineering
- transportation engineering
- engineering plantSyn:б) разработка и управление (о процессах, механизмах); инженерия2) техника, аппаратура3) разг. махинации, происки -
10 construction
1. строительство, постройка, возведение2. конструкция; конструктивная система; сооружение3. схема устройства4. построениеconstruction of formwork — опалубочные работы, возведение опалубки
acoustic construction — строительство с соблюдением установленных требований в отношении звукоизоляции
arched construction — арочная конструкция; здание с арочным или сводчатым перекрытием
balloon frame construction — деревянный каркас с балками, опирающимися на бобышки
beam-and-column construction — балочно-стоечная конструкция, балочно-стоечный каркас
beam-and-girder construction — балочная конструкция, балочная клетка, система перекрёстных балок
bolted construction — болтовая конструкция, конструкция с болтовыми соединениями
bridge construction fully supported on staging — бетонирование пролётного строения на сплошных подмостях
building construction — жилищное строительство, строительство жилых и общественных зданий
5. строительство из монолитного бетона6. конструкция из монолитного бетона, монолитная конструкция7. сборно-монолитная бетонная конструкция8. строительство из сборно-монолитного бетона9. конструкция из стальных холодногнутых профилей10. возведение сооружений из стальных холодногнутых профилей11. строительство в холодное время года12. строительство в районах Крайнего Севера13. комбинированная конструкцияtype of construction — тип конструкции; вид конструкции
14. сталежелезобетонная конструкцияconstruction type — тип конструкции; вид конструкции
15. сборно-монолитная железобетонная конструкция16. бетонная конструкция17. бетонные работы18. строительство из кирпича19. кирпичные конструкцииexternal construction exposed to the weather — наружная конструкция, подверженная воздействию погодных факторов
filler-joist construction — конструкция перекрытия или покрытия, состоящая из стальных балок с заполнением из керамических или бетонных блоков
20. устройство полов21. конструкция пола22. конструкция перекрытияframe construction — рамная конструкция; каркасная деревянная конструкция
23. высотная конструкция24. строительство высотных домов25. конструкция заводского изготовления26. сборное строительство с использованием элементов заводского изготовленияin-situ reinforced concrete construction — монолитная железобетонная конструкция; строительство монолитных железобетонных конструкций
large panel construction — крупнопанельное строительство; изготовление крупных железобетонных панелей
large precast concrete panel construction — строительство с применением крупных железобетонных панелей
27. строительство из лёгких конструкций28. лёгкая конструкция29. сборное строительство из объёмных блоковconstruction unit — блок; модуль; узел
30. сооружение, монтируемое из пространственных блоковmultistage construction — поэтапное строительство, строительство в несколько очередей
31. панельная конструкция32. поэтапное строительство по совмещённому графику33. строительство асфальтобетонных покрытий дорог и улиц методом последовательного наложения по графику конструктивных слоёв на участках большой протяжённостиpost-and-lintel construction — балочно-стоечная конструкция; балочно-стоечный каркас
34. сборное строительство35. сборная конструкцияsteel construction — стальная конструкция, металлоконструкция
36. сборная железобетонная панельная конструкции37. панельное строительствоpre-post-tensioned construction — сборная или сборно-монолитная железобетонная конструкция, преднапряжённые элементы которой дополнительно стягиваются напрягаемой арматурой после возведения
pretensioned construction — предварительно напряжённая железобетонная конструкция с натяжением арматуры на упоры
protected construction — конструкция, заданный предел огнестойкости всех несущих элементов которой обеспечен соответствующими мерами защиты
38. железобетонная конструкция39. строительство из железобетона40. дорожное строительство41. дорожная одежда42. рубленый дом; сруб43. строительство бревенчатых стенsegmental span-by-span construction — попролётное навесное бетонирование секциями в передвижном агрегате
44. стальная конструкцияmodular construction — модульная конструкция; модульная структура
45. возведение стальных конструкцийstressed-skin construction — пространственная стержневая конструкция с напряжённой ограждающей оболочкой
46. строительство башенных сооружений47. башенная конструкцияunbonded posttension construction — преднапряжённая конструкция без сцепления напрягаемой арматуры с бетоном
wet construction — строительство с применением «мокрых» процессов
48. деревянная конструкция49. строительство из дерева -
11 hydraulic pressure
Iநீரியலமுக்கம்IIநீ£¤யல் அழுத்தம்நீர்ம அழுத்தம்IVநீர்ம அழுத்தம்Vநீரியலமுக்கம் -
12 hydraulic ram
Iநீரியல் இறுக்கிIIநீ£¤யல் திமியம்நீ£¤யக்கத்தாக்கிIVநீர்த்திமியம்Vநீரியல் முசலம் -
13 гидротехническое строительство
Русско-английский словарь по строительству и новым строительным технологиям > гидротехническое строительство
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14 гидротехнический тоннель
Construction: gallery, hydraulic engineering tunnel, hydraulic tunnel, water galleryУниверсальный русско-английский словарь > гидротехнический тоннель
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15 гидроэнергостроительство
Универсальный русско-английский словарь > гидроэнергостроительство
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16 гидромашиностроение
Engineering: hydraulic machinery constructionУниверсальный русско-английский словарь > гидромашиностроение
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17 конструкция гидронасоса
Engineering: hydraulic pump constructionУниверсальный русско-английский словарь > конструкция гидронасоса
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18 гидравлика
1) General subject: hydraulics (употр. как sing)2) Military: hydromechanics3) Engineering: hydraulic arrangement, hydraulic controls, hydraulic drive, hydraulic system4) Chemistry: hydraulic, hydraulic main5) Construction: fluid power6) Oil: fluid flow mechanics7) Automation: fluid mechanics8) Makarov: hydraulic controls (оборудование или устройство), hydraulic drive (оборудование или устройство), hydraulic engineering, hydraulic system (оборудование или устройство) -
19 Brunel, Isambard Kingdom
SUBJECT AREA: Civil engineering, Land transport, Mechanical, pneumatic and hydraulic engineering, Ports and shipping, Public utilities, Railways and locomotives[br]b. 9 April 1806 Portsea, Hampshire, Englandd. 15 September 1859 18 Duke Street, St James's, London, England[br]English civil and mechanical engineer.[br]The son of Marc Isambard Brunel and Sophia Kingdom, he was educated at a private boarding-school in Hove. At the age of 14 he went to the College of Caen and then to the Lycée Henri-Quatre in Paris, after which he was apprenticed to Louis Breguet. In 1822 he returned from France and started working in his father's office, while spending much of his time at the works of Maudslay, Sons \& Field.From 1825 to 1828 he worked under his father on the construction of the latter's Thames Tunnel, occupying the position of Engineer-in-Charge, exhibiting great courage and presence of mind in the emergencies which occurred not infrequently. These culminated in January 1828 in the flooding of the tunnel and work was suspended for seven years. For the next five years the young engineer made abortive attempts to find a suitable outlet for his talents, but to little avail. Eventually, in 1831, his design for a suspension bridge over the River Avon at Clifton Gorge was accepted and he was appointed Engineer. (The bridge was eventually finished five years after Brunel's death, as a memorial to him, the delay being due to inadequate financing.) He next planned and supervised improvements to the Bristol docks. In March 1833 he was appointed Engineer of the Bristol Railway, later called the Great Western Railway. He immediately started to survey the route between London and Bristol that was completed by late August that year. On 5 July 1836 he married Mary Horsley and settled into 18 Duke Street, Westminster, London, where he also had his office. Work on the Bristol Railway started in 1836. The foundation stone of the Clifton Suspension Bridge was laid the same year. Whereas George Stephenson had based his standard railway gauge as 4 ft 8½ in (1.44 m), that or a similar gauge being usual for colliery wagonways in the Newcastle area, Brunel adopted the broader gauge of 7 ft (2.13 m). The first stretch of the line, from Paddington to Maidenhead, was opened to traffic on 4 June 1838, and the whole line from London to Bristol was opened in June 1841. The continuation of the line through to Exeter was completed and opened on 1 May 1844. The normal time for the 194-mile (312 km) run from Paddington to Exeter was 5 hours, at an average speed of 38.8 mph (62.4 km/h) including stops. The Great Western line included the Box Tunnel, the longest tunnel to that date at nearly two miles (3.2 km).Brunel was the engineer of most of the railways in the West Country, in South Wales and much of Southern Ireland. As railway networks developed, the frequent break of gauge became more of a problem and on 9 July 1845 a Royal Commission was appointed to look into it. In spite of comparative tests, run between Paddington-Didcot and Darlington-York, which showed in favour of Brunel's arrangement, the enquiry ruled in favour of the narrow gauge, 274 miles (441 km) of the former having been built against 1,901 miles (3,059 km) of the latter to that date. The Gauge Act of 1846 forbade the building of any further railways in Britain to any gauge other than 4 ft 8 1/2 in (1.44 m).The existence of long and severe gradients on the South Devon Railway led to Brunel's adoption of the atmospheric railway developed by Samuel Clegg and later by the Samuda brothers. In this a pipe of 9 in. (23 cm) or more in diameter was laid between the rails, along the top of which ran a continuous hinged flap of leather backed with iron. At intervals of about 3 miles (4.8 km) were pumping stations to exhaust the pipe. Much trouble was experienced with the flap valve and its lubrication—freezing of the leather in winter, the lubricant being sucked into the pipe or eaten by rats at other times—and the experiment was abandoned at considerable cost.Brunel is to be remembered for his two great West Country tubular bridges, the Chepstow and the Tamar Bridge at Saltash, with the latter opened in May 1859, having two main spans of 465 ft (142 m) and a central pier extending 80 ft (24 m) below high water mark and allowing 100 ft (30 m) of headroom above the same. His timber viaducts throughout Devon and Cornwall became a feature of the landscape. The line was extended ultimately to Penzance.As early as 1835 Brunel had the idea of extending the line westwards across the Atlantic from Bristol to New York by means of a steamship. In 1836 building commenced and the hull left Bristol in July 1837 for fitting out at Wapping. On 31 March 1838 the ship left again for Bristol but the boiler lagging caught fire and Brunel was injured in the subsequent confusion. On 8 April the ship set sail for New York (under steam), its rival, the 703-ton Sirius, having left four days earlier. The 1,340-ton Great Western arrived only a few hours after the Sirius. The hull was of wood, and was copper-sheathed. In 1838 Brunel planned a larger ship, some 3,000 tons, the Great Britain, which was to have an iron hull.The Great Britain was screwdriven and was launched on 19 July 1843,289 ft (88 m) long by 51 ft (15.5 m) at its widest. The ship's first voyage, from Liverpool to New York, began on 26 August 1845. In 1846 it ran aground in Dundrum Bay, County Down, and was later sold for use on the Australian run, on which it sailed no fewer than thirty-two times in twenty-three years, also serving as a troop-ship in the Crimean War. During this war, Brunel designed a 1,000-bed hospital which was shipped out to Renkioi ready for assembly and complete with shower-baths and vapour-baths with printed instructions on how to use them, beds and bedding and water closets with a supply of toilet paper! Brunel's last, largest and most extravagantly conceived ship was the Great Leviathan, eventually named The Great Eastern, which had a double-skinned iron hull, together with both paddles and screw propeller. Brunel designed the ship to carry sufficient coal for the round trip to Australia without refuelling, thus saving the need for and the cost of bunkering, as there were then few bunkering ports throughout the world. The ship's construction was started by John Scott Russell in his yard at Millwall on the Thames, but the building was completed by Brunel due to Russell's bankruptcy in 1856. The hull of the huge vessel was laid down so as to be launched sideways into the river and then to be floated on the tide. Brunel's plan for hydraulic launching gear had been turned down by the directors on the grounds of cost, an economy that proved false in the event. The sideways launch with over 4,000 tons of hydraulic power together with steam winches and floating tugs on the river took over two months, from 3 November 1857 until 13 January 1858. The ship was 680 ft (207 m) long, 83 ft (25 m) beam and 58 ft (18 m) deep; the screw was 24 ft (7.3 m) in diameter and paddles 60 ft (18.3 m) in diameter. Its displacement was 32,000 tons (32,500 tonnes).The strain of overwork and the huge responsibilities that lay on Brunel began to tell. He was diagnosed as suffering from Bright's disease, or nephritis, and spent the winter travelling in the Mediterranean and Egypt, returning to England in May 1859. On 5 September he suffered a stroke which left him partially paralysed, and he died ten days later at his Duke Street home.[br]Further ReadingL.T.C.Rolt, 1957, Isambard Kingdom Brunel, London: Longmans Green. J.Dugan, 1953, The Great Iron Ship, Hamish Hamilton.IMcNBiographical history of technology > Brunel, Isambard Kingdom
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20 Bollée, Ernest-Sylvain
[br]b. 19 July 1814 Clefmont (Haute-Marne), Franced. 11 September 1891 Le Mans, France[br]French inventor of the rotor-stator wind engine and founder of the Bollée manufacturing industry.[br]Ernest-Sylvain Bollée was the founder of an extensive dynasty of bellfounders based in Le Mans and in Orléans. He and his three sons, Amédée (1844–1917), Ernest-Sylvain fils (1846–1917) and Auguste (1847-?), were involved in work and patents on steam-and petrol-driven cars, on wind engines and on hydraulic rams. The presence of the Bollées' car industry in Le Mans was a factor in the establishment of the car races that are held there.In 1868 Ernest-Sylvain Bollée père took out a patent for a wind engine, which at that time was well established in America and in England. In both these countries, variable-shuttered as well as fixed-blade wind engines were in production and patented, but the Ernest-Sylvain Bollée patent was for a type of wind engine that had not been seen before and is more akin to the water-driven turbine of the Jonval type, with its basic principle being parallel to the "rotor" and "stator". The wind drives through a fixed ring of blades on to a rotating ring that has a slightly greater number of blades. The blades of the fixed ring are curved in the opposite direction to those on the rotating blades and thus the air is directed onto the latter, causing it to rotate at a considerable speed: this is the "rotor". For greater efficiency a cuff of sheet iron can be attached to the "stator", giving a tunnel effect and driving more air at the "rotor". The head of this wind engine is turned to the wind by means of a wind-driven vane mounted in front of the blades. The wind vane adjusts the wind angle to enable the wind engine to run at a constant speed.The fact that this wind engine was invented by the owner of a brass foundry, with all the gear trains between the wind vane and the head of the tower being of the highest-quality brass and, therefore, small in scale, lay behind its success. Also, it was of prefabricated construction, so that fixed lengths of cast-iron pillar were delivered, complete with twelve treads of cast-iron staircase fixed to the outside and wrought-iron stays. The drive from the wind engine was taken down the inside of the pillar to pumps at ground level.Whilst the wind engines were being built for wealthy owners or communes, the work of the foundry continued. The three sons joined the family firm as partners and produced several steam-driven vehicles. These vehicles were the work of Amédée père and were l'Obéissante (1873); the Autobus (1880–3), of which some were built in Berlin under licence; the tram Bollée-Dalifol (1876); and the private car La Mancelle (1878). Another important line, in parallel with the pumping mechanism required for the wind engines, was the development of hydraulic rams, following the Montgolfier patent. In accordance with French practice, the firm was split three ways when Ernest-Sylvain Bollée père died. Amédée père inherited the car side of the business, but it is due to Amédée fils (1867– 1926) that the principal developments in car manufacture came into being. He developed the petrol-driven car after the impetus given by his grandfather, his father and his uncle Ernest-Sylvain fils. In 1887 he designed a four-stroke single-cylinder engine, although he also used engines designed by others such as Peugeot. He produced two luxurious saloon cars before putting Torpilleur on the road in 1898; this car competed in the Tour de France in 1899. Whilst designing other cars, Amédée's son Léon (1870–1913) developed the Voiturette, in 1896, and then began general manufacture of small cars on factory lines. The firm ceased work after a merger with the English firm of Morris in 1926. Auguste inherited the Eolienne or wind-engine side of the business; however, attracted to the artistic life, he sold out to Ernest Lebert in 1898 and settled in the Paris of the Impressionists. Lebert developed the wind-engine business and retained the basic "stator-rotor" form with a conventional lattice tower. He remained in Le Mans, carrying on the business of the manufacture of wind engines, pumps and hydraulic machinery, describing himself as a "Civil Engineer".The hydraulic-ram business fell to Ernest-Sylvain fils and continued to thrive from a solid base of design and production. The foundry in Le Mans is still there but, more importantly, the bell foundry of Dominique Bollée in Saint-Jean-de-Braye in Orléans is still at work casting bells in the old way.[br]Further ReadingAndré Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).KM
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