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1 внешний район стоянки транспортов
Military: outer transport areaУниверсальный русско-английский словарь > внешний район стоянки транспортов
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2 zone
zone [zon]1. feminine noun• zone de haute/basse pression area of high/low pressure• dans cette affaire, des zones d'ombre subsistent encore some aspects of this business remain very unclear• c'est la zone ! it's the pits! (inf)• enlève ce bric-à-brac de ton jardin, ça fait zone (inf) get rid of that junk in your garden, it looks like a tip (inf)2. compounds► zone bleue ≈ restricted parking zone► zone de dépression or dépressionnaire trough of low pressure• passer/se réfugier en zone libre to enter/take refuge in the unoccupied zone ► zone de libre-échange free trade area► zone piétonne or piétonnière pedestrian precinct* * *zon1) ( secteur) zone, areazone interdite — no-go area GB, off-limits area; ( sur un panneau) no entry
3) ( banlieue pauvre)•Phrasal Verbs:* * *zon nf1) (= lieu) zone, area2) INFORMATIQUE field4) * (= désordre)* * *zone nf1 ( secteur) zone, area; zone de radiation/combat radiation/combat zone; zone de pêche fishing zone; zone de cultures agricultural area; zone de turbulences Météo area of turbulence; zone interdite no-go area GB, off-limits area; ( sur un panneau) no entry;zone d'activités business park; zone d'aménagement concerté, ZAC Admin integrated development zone; zone d'aménagement différé, ZAD Admin area set aside for development; zone artisanale small industrial estate GB ou park; zone bleue Aut restricted parking zone; zone de chalandise Admin, Comm catchment area; zone de données Ordinat data field; zone d'environnement protégé environmental protection zone; zone érogène Physiol erogenous zone; zone euro Euro Zone; zone d'exclusion aérienne Mil no-fly zone; zone franc Fin franc area; zone franche Écon free zone; zone frontière border area; zone industrielle industrial estate GB ou park US; zone d'influence Pol sphere ou area of influence; zone libre Hist unoccupied France; zone de libre-échange Écon free-trade area; zone monétaire Fin monetary area; zone occupée Hist occupied France; zone postale Postes postal area ou zone GB, zone of improved postage, ZIP US; zone sterling Fin sterling area; zone sensible lit potential trouble-spot; fig potential trouble area; zone sinistrée Admin disaster area; zone tampon Mil, Pol buffer zone; zone à urbaniser en priorité, ZUP priority development area.[zon] nom fémininzone de flou ou d'incertitude ou d'ombre grey area2. ANATOMIEzone d'aménagement concerté → link=ZAC ZACzone à urbaniser en priorité → link=ZUP ZUPADMINISTRATION & FINANCE4. HISTOIREzone libre/occupée unoccupied/occupied France5. GÉOGRAPHIEzone glaciale/tempérée/torride frigid/temperate/torrid zone6. MÉTÉOROLOGIEzone de dépression, zone dépressionnaire trough of low pressure8. FINANCE9. INFORMATIQUE10. MILITAIRE11. (péjoratif)a. (familier) [quartier pauvre] it's a really rough areab. [désordre] it's a real mess ou tipcette famille, c'est vraiment la zone they're real dropouts in that familyde deuxième zone locution adjectivalede troisième zone locution adjectivale1. The Paris area is divided into fare zones for public transport. Zones 1 and 2 cover metropolitan Paris and certain areas of the nearby suburbs. The remaining zones cover the outer suburbs: j'habite en zone 3, une carte orange quatre zones.2. France is divided into three zones (A, B and C), the schools in the different zones taking their mid-term breaks and Easter holidays at different times to avoid swamping the roads, the public transport system and tourist infrastructure. -
3 Greathead, James Henry
[br]b. 6 August 1844 Grahamstown, Cape Colony (now South Africa)d. 21 October 1896 Streatham, London, England[br]British civil engineer, inventor of the Greathead tunnelling shield.[br]Greathead came to England in 1859 to complete his education. In 1864 he began a three-year pupillage with the civil engineer Peter W. Barlow, after which he was engaged as an assistant engineer on the extension of the Midland Railway from Bedford to London. In 1869 he was entrusted with the construction of the Tower Subway under the River Thames; this was carried out using a cylindrical wrought-iron shield which was forced forward by six large screws as material was excavated in front of it. This work was completed the same year. In 1870 he set himself up as a consulting engineer, and from 1873 he was Resident Engineer on the Hammersmith and Richmond extensions of the Metropolitan District Railway. He assisted in the preparation of several other railway projects including the Regent's Canal Railway in 1880, the Dagenham Dock and the Metropolitan Outer Circle Railways in 1881, a new line from London to Eastbourne and a number of Irish light railways. He worked on a bill for the City and South London Railway, which was built between 1886 and 1890; here compressed air was used to prevent the inrush of water, a method for tunnelling which was generally adopted from then on. He invented apparatus for the application of water to excavate in front of the shield as well as for injecting cement-grout behind the lining of the tunnel.He was joint engineer with Sir Douglas Fox for the construction of the Liverpool Overhead Railway, and held the same post with W.R.Galbraith on the Waterloo and City Railway; he was also associated with Sir John Fowler and Sir Benjamin Baker in the construction of the Central London Railway. He died, aged 52, before the completion of some of these projects.[br]Further ReadingObituary, 1896, Proceedings of the Institution of Mechanical Engineers.O.Green, 1987, The London Underground: An Illustrated History', London: Ian Allan (in association with the London Transport Museum).P.P.Holman, 1990, The Amazing Electric Tube: A History of the City and South LondonRailway, London: London Transport Museum.IMcN -
4 Carte Orange
a card entitling residents in the greater Paris area to buy an unlimited travel pass for use on the region's public transport network. For this and other purposes, the greater Paris area is divided into six concentric zones, and cards cover one or more zones, working out from the centre to the outer zone. The system is currently being phased out, since different Paris travel concessions are being centralised within a new smart card system known as Navigo.Dictionnaire Français-Anglais. Agriculture Biologique > Carte Orange
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5 Ackermann, Rudolph
[br]b. 20 April 1764 Stolberg, Saxonyd. 30 March 1834 Finchley, London, England[br]German-born fine-art publisher and bookseller, noted for his arrangement of the steering of the front wheels of horse-drawn carriages, which is still used in automobiles today.[br]Ackermann's father was a coachbuilder and harness-maker who in 1775 moved to Schneeberg. Rudolph was educated there and later entered his father's workshop for a short time. He visited Dresden, among other towns in Germany, and was resident in Paris for a short time, but eventually settled in London. For the first ten years of his life there he was employed in making designs for many of the leading coach builders. His steering-gear consisted of an arrangement of the track arms on the stub axles and their connection by the track rod in such a way that the inner wheel moved through a greater angle than the outer one, so giving approximately true rolling of the wheels in cornering. A necessary condition for this is that, in the plan view, the point of intersection of the axes of all the wheels must be at a point which always lies on the projection of the rear axle. In addition, the front wheels are inclined to bring the line of contact of the front wheels under the line of the pivots, about which they turn when cornering. This mechanism was not entirely new, having been proposed for windmill carriages in 1714 by Du Quet, but it was brought into prominence by Ackermann and so has come to bear his name.In 1801 he patented a method of rendering paper, cloth and other materials waterproof and set up a factory in Chelsea for that purpose. He was one of the first private persons to light his business premises with gas. He also devoted some time to a patent for movable carriage axles between 1818 and 1820. In 1805 he was put in charge of the preparation of the funeral car for Lord Nelson.Most of his life and endeavours were devoted to fine-art printing and publishing. He was responsible for the introduction into England of lithography as a fine art: it had first been introduced as a mechanical process in 1801, but was mainly used for copying until Ackermann took it up in 1817, setting up a press and engaging the services of a number of prominent artists, including W.H.Pyne, W.Combe, Pugin and Thomas Rowlandson. In 1819 he published an English translation of J.A.Senefelder's A Complete Course of Lithography, illustrated with lithographic plates from his press. He was much involved in charitable works for widows, children and wounded soldiers after the war of 1814. In 1830 he suffered "an attack of paralysis" which left him unable to continue in business. He died four years later and was buried at St Clement Danes.[br]BibliographyHis fine-art publications are numerous and well known, and include the following:The Microcosm of London University of Oxford University of Cambridge The ThamesFurther ReadingAubrey F.Burstall, "A history of mechanical engineering", Dictionary of National Biography.IMcN -
6 Fairlie, Robert Francis
[br]b. March 1831 Scotlandd. 31 July 1885 Clapham, London, England[br]British engineer, designer of the double-bogie locomotive, advocate of narrow-gauge railways.[br]Fairlie worked on railways in Ireland and India, and established himself as a consulting engineer in London by the early 1860s. In 1864 he patented his design of locomotive: it was to be carried on two bogies and had a double boiler, the barrels extending in each direction from a central firebox. From smokeboxes at the outer ends, return tubes led to a single central chimney. At that time in British practice, locomotives of ever-increasing size were being carried on longer and longer rigid wheelbases, but often only one or two of their three or four pairs of wheels were powered. Bogies were little used and then only for carrying-wheels rather than driving-wheels: since their pivots were given no sideplay, they were of little value. Fairlie's design offered a powerful locomotive with a wheelbase which though long would be flexible; it would ride well and have all wheels driven and available for adhesion.The first five double Fairlie locomotives were built by James Cross \& Co. of St Helens during 1865–7. None was particularly successful: the single central chimney of the original design had been replaced by two chimneys, one at each end of the locomotive, but the single central firebox was retained, so that exhaust up one chimney tended to draw cold air down the other. In 1870 the next double Fairlie, Little Wonder, was built for the Festiniog Railway, on which C.E. Spooner was pioneering steam trains of very narrow gauge. The order had gone to George England, but the locomotive was completed by his successor in business, the Fairlie Engine \& Steam Carriage Company, in which Fairlie and George England's son were the principal partners. Little Wonder was given two inner fireboxes separated by a water space and proved outstandingly successful. The spectacle of this locomotive hauling immensely long trains up grade, through the Festiniog Railway's sinuous curves, was demonstrated before engineers from many parts of the world and had lasting effect. Fairlie himself became a great protagonist of narrow-gauge railways and influenced their construction in many countries.Towards the end of the 1860s, Fairlie was designing steam carriages or, as they would now be called, railcars, but only one was built before the death of George England Jr precipitated closure of the works in 1870. Fairlie's business became a design agency and his patent locomotives were built in large numbers under licence by many noted locomotive builders, for narrow, standard and broad gauges. Few operated in Britain, but many did in other lands; they were particularly successful in Mexico and Russia.Many Fairlie locomotives were fitted with the radial valve gear invented by Egide Walschaert; Fairlie's role in the universal adoption of this valve gear was instrumental, for he introduced it to Britain in 1877 and fitted it to locomotives for New Zealand, whence it eventually spread worldwide. Earlier, in 1869, the Great Southern \& Western Railway of Ireland had built in its works the first "single Fairlie", a 0–4–4 tank engine carried on two bogies but with only one of them powered. This type, too, became popular during the last part of the nineteenth century. In the USA it was built in quantity by William Mason of Mason Machine Works, Taunton, Massachusetts, in preference to the double-ended type.Double Fairlies may still be seen in operation on the Festiniog Railway; some of Fairlie's ideas were far ahead of their time, and modern diesel and electric locomotives are of the powered-bogie, double-ended type.[br]Bibliography1864, British patent no. 1,210 (Fairlie's master patent).1864, Locomotive Engines, What They Are and What They Ought to Be, London; reprinted 1969, Portmadoc: Festiniog Railway Co. (promoting his ideas for locomotives).1865, British patent no. 3,185 (single Fairlie).1867. British patent no. 3,221 (combined locomotive/carriage).1868. "Railways and their Management", Journal of the Society of Arts: 328. 1871. "On the Gauge for Railways of the Future", abstract in Report of the FortiethMeeting of the British Association in 1870: 215. 1872. British patent no. 2,387 (taper boiler).1872, Railways or No Railways. "Narrow Gauge, Economy with Efficiency; or Broad Gauge, Costliness with Extravagance", London: Effingham Wilson; repr. 1990s Canton, Ohio: Railhead Publications (promoting the cause for narrow-gauge railways).Further ReadingFairlie and his patent locomotives are well described in: P.C.Dewhurst, 1962, "The Fairlie locomotive", Part 1, Transactions of the Newcomen Society 34; 1966, Part 2, Transactions 39.R.A.S.Abbott, 1970, The Fairlie Locomotive, Newton Abbot: David \& Charles.PJGRBiographical history of technology > Fairlie, Robert Francis
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7 Moulton, Alexander
[br]b. 9 April 1920 Stratford-on-Avon[br]English inventor of vehicle suspension systems and the Moulton bicycle.[br]He spent his childhood at The Hall in Bradfordon-Avon. He was educated at Marlborough College, and in 1937 was apprenticed to the Sentinel Steam Wagon Company of Shrewsbury. About that same time he went to King's College, Cambridge, where he took the Mechanical Sciences Tripos. It was then wartime, and he did research on aero-engines at the Bristol Aeroplane Company, where he became Personal Assistant to Sir Roy Fedden. He left Bristol's in 1945 to join his family firm, Spencer \& Moulton, of which he eventually became Technical Director and built up the Research Department. In 1948 he invented his first suspension unit, the "Flexitor", in which an inner shaft and an outer shell were separated by an annular rubber body which was bonded to both.In 1848 his great-grandfather had founded the family firm in an old woollen mill, to manufacture vulcanized rubber products under Charles Goodyear's patent. The firm remained a family business with Spencer's, consultants in railway engineering, until 1956 when it was sold to the Avon Rubber Company. He then formed Moulton Developments to continue his work on vehicle suspensions in the stables attached to The Hall. Sponsored by the British Motor Corporation (BMC) and the Dunlop Rubber Company, he invented a rubber cone spring in 1951 which was later used in the BMC Mini (see Issigonis, Sir Alexander Arnold Constantine): by 1994 over 4 million Minis had been fitted with these springs, made by Dunlop. In 1954 he patented the Hydrolastic suspension system, in which all four wheels were independently sprung with combined rubber springs and damper assembly, the weight being supported by fluid under pressure, and the wheels on each side being interconnected, front to rear. In 1962 he formed Moulton Bicycles Ltd, having designed an improved bicycle system for adult use. The conventional bicycle frame was replaced by a flat-sided oval steel tube F-frame on a novel rubber front and rear suspension, with the wheel size reduced to 41 cm (16 in.) with high-pressure tyres. Raleigh Industries Ltd having refused his offer to produce the Moulton Bicycle under licence, he set up his own factory on his estate, producing 25,000 bicycles between 1963 and 1966. In 1967 he sold out to Raleigh and set up as Bicycle Consultants Ltd while continuing the suspension development of Moulton Developments Ltd. In the 1970s the combined firms employed some forty staff, nearly 50 per cent of whom were graduates.He won the Queen's Award for Industry in 1967 for technical innovation in Hydrolastic car suspension and the Moulton Bicycle. Since that time he has continued his innovative work on suspensions and the bicycle. In 1983 he introduced the AM bicycle series of very sophisticated space-frame design with suspension and 43 cm (17 in.) wheels; this machine holds the world speed record fully formed at 82 km/h (51 mph). The current Rover 100 and MGF use his Hydragas interconnected suspension. By 1994 over 7 million cars had been fitted with Moulton suspensions. He has won many design awards and prizes, and has been awarded three honorary doctorates of engineering. He is active in engineering and design education.[br]Principal Honours and DistinctionsQueen's Award for Industry 1967; CBE; RDI. Fellow of the Royal Academy of Engineering.Further ReadingP.R.Whitfield, 1975, Creativity in Industry, London: Penguin Books.IMcN
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