periphery layer

periphery layer

Цемент: внешний слой

внешний слой

1) General subject: cortex, facing

2) Biology: enveloping layer

3) Naval: external layer

4) Medicine: fasing

5) Engineering: capsule (клеточной стенки)

6) Mathematics: an outer layer of

7) Forestry: exterior layer (фанеры, ДСП, ДВП)

8) Perfume: outer layer

9) Business: overlay

10) Polymers: peel ply

11) Makarov: peeling

12) Electrochemistry: sheath

13) Cement: periphery layer

phraseology of meteorological breefing/consultation

фразеология метеоконсультации

This is the 0600 UTC surface synoptic (significant weather, high level) chart. – Это приземная синоптическая (особых явлений, высотная) карта за 0600 UTC.

This prognostic significant weather (high level, 200, 300 hPa) chart is valid for 1800 UTC. – Эта прогностическая карта особых явлений (высотная, 200, 300 гПа) на 18 UTC.

Wind speed and displacement of baric systems on our charts is given in kmh. – Скорость ветра и смещения барических систем на наших картах указана в км/ч.

Altitudes on our charts are given in decametres. – Высоты на наших картах даны в декаметрах.

This cyclone (anticyclone) according to data of barric topography is tracked up to the altitude of... km. – Этот циклон (антициклон) по данным барической топографии прослеживается до высоты... км.

The cyclone (anticyclone) centred at (Northern, Southern...) Norway is displacing North-East (South...) with the speed of... kmh. – Циклон (антициклон), расположенный над (северной, южной...) Норвегией смещается к северо-востоку (югу...) со скоростью... км/ч.

The low (high) centred North (South...) of the Bahames is moving North-Eastward (South-Eastward...) at about 20 kmh and is deepening. – Циклон (антициклон), расположенный севернее (южнее...) Багамских о-вов, смещается в северо-восточном (юго-восточном...) направлении со скоростью 20 км/ч углубляясь.

The 300 hPa chart shows a trough lying North-East to South-West across the track. – На карте 300 гПа поверхности прослеживается ложбина, пересекая маршрут с северо-востока на юго-запад.

The trough is expected to remain in the present position for the next 12 hours. – Предполагается, что положение ложбины сохранится на ближайшие 12 часов.

The semi-permanent high (low) over the Baltic sea is bilding up. – Квазистационарный антициклон (циклон) формируется над Балтийским морем.

Weather along the route (section of the route) will be influenced by... Northern (Southern, Eastern...) periphery of deepening, (filling) cyclone (anticyclone, trough, crest, warm sector of the cyclone). – Погода по маршруту (участку маршрута) обуславливается... северной (южной, восточной) периферией углубляющегося (заполняющегося) циклона (антициклона, ложбины, гребня, теплым сектором циклона).

Weather conditions on the route... to... are therefore expected to be... – Поэтому по маршруту... ожидаются метеоусловия...

Flight in cold (warm, secondary cold, occluded) front zone. – Полет в зоне холодного (теплого, вторичного холодного, окклюдированного) фронта.

Flight along cold (warm...) front (cold front with waves). – Полет вдоль холодного (теплого) фронта (холодного фронта с волнами).

While crossing cold (warm...) front... – При пересечении холодного (теплого...) фронта...

Cold (warm...) front is displacing North (Northeast...) with the speed... kmh, to the East (West...). – Холодный (теплый...) фронт смещается к северу (северо-востоку...) со скоростью... км/ч, на восток (запад...).

An active warm front lying South-East to North-West along the coast of Norway at 12 UTC is moving East at 30 kmh. It is preceded by a narrow belt of heavy snow. – Активный теплый фронт, пролегающий с юго-востока на северо-запад вдоль побережья Норвегии на 12 UTC, смещается на восток со скоростью 30 км/ч. Ему предшествует узкая зона сильного снегопада.

Front is well expressed in temperature contrasts (wind regime, precipitation...). – Фронт хорошо выражен в температурных контрастах (в ветровом режиме, осадках...).

A cold (warm...) front is shown on 12 UTC surface chart. – На приземной карте, за 12 UTC показан холодный (теплый...) фронт.

It is recommended not to cross cold front zone, to go above clouds at a distance not less than 1000 m from CB. – Рекомендуется не пересекать зону холодного фронта, идти над облаками на расстоянии не менее 1000 м от куч.-дождевых облаков.

Warm (high warm) front is placed over Norway at 18 UTC. – Теплый (высотный теплый) фронт расположен над Норвегией на 18 UTC.

In connection with it, it is expected... – В связи с этим ожидается...

Scattered (broken, overcast) clouds (layers), embedded CB – Рассеянная (значительная, сплошная) облачность (слой), маскированная куч.-дождевая

Base of cloud... km. – Нижняя граница облачности... км.

Top... km. – Верхняя граница... км.

CB top above... km. – Верхняя границы куч.-дождевой облачности выше... км.

Cloud base will be lowering to... m (km) (rapidly). Increasing cloud layers, (local) thunderstorm(s) (probability of thunderstorm, thunderstorm situation is shown on the charts as RISK &) – Нижняя границы облачности понизится до... м (км) (быстро). Повышающаяся облачность, (местами) гроза(ы), (вероятность грозы, т.е. грозовое положение на картах RISK |^)

Cb clouds with tops above 10 km and associated thunderstorms are expected to effect the route – Предполагается по маршруту влияния куч.-дождевой облачности с верхней границей свыше 10 км и связанные с ней грозы.

Light (moderate, severe) icing in cloud (precipitation). – Слабое (умеренное, сильное) обледенение в облаках (осадках).

Moderate (severe) turbulence in cloud (surface layer). – Умеренная (сильная) турбулентность в облаках (приземном слое).

(Orographic) Moderate (severe) clear air turbulence is expected North of... (the jet stream) at... km – (Орографическая) умеренная (сильная) турбулентность в ясном небе ожидается к северу от... (оси струйного течения) на высоте... км

To escape icing (turbulence) we advise you to choose flight level over... km. – Чтобы избежать обледенения (турбулентности) рекомендуем выбрать высоту полета выше... км.

Data from boards confirm presence of moderate (severe) icing (turbulence) in cloud. – Бортовые данные подтверждают наличие умеренного (сильного) обледенения (турбулентности) в облаках.

Radar (satellite) data confirm presence of thunderstorms, CB clouds. – Радиолокационные (спутниковые) данные подтверждают наличие грозовых очагов, куч.-дождевой облачности.

Displacing Northward (Southward...). – Смещение к северу (югу...).

Visibility... km (m) (in rain). – Видимость... км (м) (в дожде).

Changing for the best (worse) – Улучшение (ухудшение)

The altitude of tropopause is... km – Высота тропопаузы... км

Sharp slope of tropopause is observed over area of... – Резкий наклон тропопаузы наблюдается над районом...

Upper wind and temperature, wind and temperature aloft – Ветер и температура на высоте

The 500 hPa prognostic chart for 12 UTC indicates upper winds of 240 degrees 60 kilometres per hour with temperature minus 20 degrees Celsius – По 500 гПа прогностической карте за 12 UTC высотный ветер 240° 60 км/ч и температура – 20° С

Wind direction... degrees (variable) – Направление ветра... град (неустойчивое)

Wind speed... kilometres per hour (metres per second if surface) – Скорость ветра... км/ч (если приземный – м/сек)

Wind speeds over the route Moscow – London are expected to increase (decrease) from... to... kmh – Предполагается усиление (ослабление) ветра по маршруту Москва – Лондон от... до... км/ч

Wind shift – Изменение ветра

It is expected to remain in the present position for the next 12 hours – Предполагается сохранение настоящего положения на последующие 12 часов

Maximum wind – Максимальный ветер

The jet stream with winds 240 degrees and speed 200 kmh is expected at 12 km – Струйное течение с ветром 240° 200 км/ч предполагается на высоте 12 км

Wind shear was reported by aircrafts – Борты сообщают о сдвиге ветра

According data from arriving (departing) aircrafts... – Согласно данным прибывающих (вылетающих) воздушных судов...

Information about observed (expected) existence of wind shear – Информация о наблюдаемом (ожидаемом) сдвиге ветра

(In this case) wind shear conditions are associated with thunderstorm (cold/warm front; strong surface wind; low level temperature inversion) – (В этом случае) условия сдвига ветра связаны с грозой (холод ным/теплым фронтом; сильным приземным ветром; температурной инверсией в приземном слое)

Wind shear could adversly affect aircraft on the takeoff path (in climb out) in layer from runway level to 500 metres – Сдвиг ветра может оказать неблагоприятное воздействие на воздушное судно на взлете (при наборе высоты) в слое – уровень ВПП/500 м

The intensity of wind shear – Интенсивность сдвига ветра

Wind shear warning surface wind 320/10 wind at 60m 360/25 in approach – Оповещения о сдвиге ветра – в зоне захода на посадку – приземный ветер 320/10, на высоте 60 м – 360/25

B-707 reported moderate (strong, severe) wind shear in approach (while takeoff, in climbout) runway 34 at 15.10 – Б707 сообщает об умеренном (сильном, очень сильном) сдвиге ветра при подходе (на взлете, при наборе высоты) к ВПП 34 в 15.10

Temperature between... and (minus)... degrees Celsius – Температура... (м)... градусов Цельсия

Zero isotherm is at the altitude of... km – Нулевая изотерма на высоте... км

At the beginning (end, in the middle, in the first half) of the route – В начале (конце, в середине, в первой половине) маршрута

It is displacing to the North (South...) Northward (Southward...) – Смещается к северу (югу...), на север (юг...)

Locally from... to... – Местами от... до...

At the altitude of... km – На высоте... км

In the layer from (between)... to (and)... km – В слое... –... км (между)...

While landing (takeoff) – При посадке (взлете)

The information depicted on high level (wind, temperature) charts should be grid points data – Информация на высотных картах (ветер, температура) является данными в точках сетки

Satellite nephanalysis for 12 UTC today shows that... – На основании данных нефанализа за 12 UTC настоящего дня видно, что...

Actual weather in the point of departure (landing) – Фактическая погода в пункте вылета (посадки)

Runway visual range is... m – Дальность видимости на ВПП –... м

Your alternate is... – Ваш запасной...

Have you any questions? – У вас есть вопросы?

device

устройство; прибор; аппарат

- acoustic delay device

- acoustic imaging device
- active device
- add-in device
- adjusting device
- airplane speaking device
- airplane tape recording device
- alarm device
- all-in-one device
- amplifying device
- analyzing device
- ancillary device
- announcer's device
- answering device
- antenna-feeder device
- antenna-matching device
- antipumping device
- arithmetic device
- arresting device
- attention device
- audible signal device
- automatic program input device
- automatic voice-alert device
- automatic-matching device
- auxiliary call-doubling device
- auxiliary loud-speaking device
- auxiliary radio communication device
- balancing device
- beam-processing device
- buffer device
- burglar-alarm device
- cable device
- calling device
- call-routing device
- central chain data device
- central-control device
- central-intranetwork device
- channel device
- channel-adjusting device
- charge-injection device
- clamping device
- color-imaging device
- combinational device
- combined safety-alarm device
- combined-measuring device
- command-execution device
- command-transit device
- command-transmission device
- compact device
- composite-optoelectronic device
- conditional-access device
- conditioning device
- connecting device
- connection device
- contact-switching device
- control device
- control-calling device
- controlled semiconductor device
- controller device
- counting device
- damping device
- data collection device
- data transmission device
- data-input device
- data-interface device
- data-recording device
- decoding device
- digital device
- digital signal processing device
- discrete control device
- dispatch device
- display device
- doubling device
- dual-tone ringing device
- duplex amplifier bypass device
- duty-reception device
- earthing device
- eavesdropping device
- edge device
- electrodynamical device
- electromagnetic device
- electronic device
- electronic-listening device
- electronic-relay device
- electronic-telegraph device
- electrostatic device
- emergency control device
- error-protecting device
- executive device
- facsimile device
- fast acting device
- fast action device
- fax machine memory device
- ferrite device
- ferrodynamical device
- ferrostatic device
- fiber-optic branching device
- fiber-optic interconnection device
- film optical-sensing device
- filter-matching device
- focusing device
- four-layer device
- four-terminal device
- frequency converting device
- frequency encoding device
- frequency-selective device
- full four-terminal device
- functional device
- gas-discharge device
- groove locating device
- heat device
- IC device
- image-display device
- imaging device
- independent device
- independent-calling device
- independent-telegraph device
- indicating device
- indicator device
- induction device
- in-line device
- input device
- input/output device
- input-isolating device
- input-output device
- input-protector device
- interface device
- interlocking device
- intermediate device
- isotropic device
- laser receiving device
- laser transmitting device
- level control device
- light alarm device
- light-sensitive device
- line HF-device
- linear device
- linear four-terminal device
- line-mounting device
- load device
- locking device
- lockout-signaling device
- logical device
- low-noise start-control device
- low-noise start-controlling device
- low-voltage device
- magnetic device
- magnetic tape sound recording device
- magnetic-wave device
- magnetoelectric device
- magnetoelectronic sparkproof device
- master device
- matching device
- measuring device
- mechanical switching device
- memory device
- message broadcasting device
- metering device
- microelectronic device
- microphone switching device
- mobile speaking device
- modem encryption device
- motor synchronizing device
- multicommunications device
- multifunction device
- multirange measuring device
- n-color device
- network section checkout device
- network synchronizing device
- noncontrolled semiconductor device
- nonlinear four-terminal device
- numbered data requiring and receiving device
- on-off device
- optical-to-optical interface device
- optimal receiving device
- optoelectronic device
- output device
- partial four-terminal device
- partially-controlled semiconductor device
- passive device
- peripheral control device
- peripheral device
- persistent-image device
- phase sensitivity protecting device
- phase shifting device
- photoconductive device
- photoelectric device
- photoemissive device
- photogalvanic device
- photosensitive device
- photothyristor electronic device
- planar device
- polarized device
- power supply device
- primary signal device
- printing device
- protection device
- protective cutout device
- pulse distributing device
- pulse firing device
- pulse semiconductor device
- pulse shortening device
- radio broadcasting device
- radioelectronic device
- real device
- receiving device
- recognition device
- recovering device
- regulating device
- release device
- remote alarm device
- remote control device
- remote network tripping device
- remote positioning device
- remote signaling device
- reserve switching device
- restricted radiation device
- ringing device
- rotary device
- routing device
- safety device
- safety-alarm device
- scanning device
- sealed distribution device
- selective call device
- semiconductor device
- semiconductor switching device
- sensing device
- signal transducing device
- signaling control device
- signaling device
- silicon imaging device
- single chip alarm device
- sizing device
- slave device
- solid optoelectronic device
- spark-protecting device
- spark-safe testing device
- speaking device
- special phototelegraph device
- spectrum transfer device
- start-control device
- start-controlling device
- starter-controlled device
- static protection device
- station HF-device
- stationary station automatic selection device
- stationary-electrical device
- storage device
- strobing device
- subscriber distribution device
- supporting device
- suppression device
- surface acoustic wave device
- surface communication device
- switching device
- sync device
- synthesized-radio device
- tap changing device
- tapping device
- tariff device
- telecontrol device
- teledata transmission device
- telegram format conversion device
- telemetric transmission device
- telephone device
- telephone periphery device
- telering device
- teletex device
- terminal device
- terminal telegraph device
- test device
- thermal regulation device
- three-terminal device
- threshold device
- time-delay device
- timing device
- touch-input device
- transceiving diving device
- transcient telegraph device
- transit device
- transmitter connecting device
- transmitting device
- trunk-encryption device
- two-terminal device
- ultrasonic imaging device
- universal calling device
- universal telegraph device
- videotex device
- voice-control device
- voice-operated gain-adjusting device
- voltage-sensing device
- warning device
- wire speaking device
- wireless speaking device

Cockerell, Christopher Sydney

SUBJECT AREA: Aerospace, Ports and shipping

[br]

b. 4 June 1910 Cambridge, England

[br]

British designer and engineer who invented the hovercraft.

[br]

He was educated at Gresham's School in Holt and at Peterhouse College, Cambridge, where he graduated in engineering in 1931; he was made an Honorary Fellow in 1974. Cockerell entered the engineering firm of W.H.Allen \& Sons of Bedford as a pupil in 1931, and two years later he returned to Cambridge to engage in radio research for a further two years. In 1935 he joined Marconi Wireless Telegraph Company, working on very high frequency (VHF) transmitters and direction finders. During the Second World War he worked on airborne navigation and communication equipment, and later he worked on radar. During this period he filed thirty six patents in the fields of radio and navigational systems.

In 1950 Cockerell left Marconi to set up his own boat-hire business on the Norfolk Broads. He began to consider how to increase the speed of boats by means of air lubrication. Since the 1870s engineers had at times sought to reduce the drag on a boat by means of a thin layer of air between hull and water. After his first experiments, Cockerell concluded that a significant reduction in drag could only be achieved with a thick cushion of air. After experimenting with several ways of applying the air-cushion principle, the first true hovercraft "took off" in 1955. It was a model in balsa wood, 2 ft 6 in. (762 mm) long and weighing 4½ oz. (27.6 g); it was powered by a model-aircraft petrol engine and could travel over land or water at 13 mph (20.8 km/h). Cockerell filed his first hovercraft patent on 12 December 1955. The following year he founded Hovercraft Ltd and began the search for a manufacturer. The government was impressed with the invention's military possibilities and placed it on the secret list. The secret leaked out, however, and the project was declassified. In 1958 the National Research and Development Corporation decided to give its backing, and the following year Saunders Roe Ltd with experience of making flying boats, produced the epoch-making SR N1, a hovercraft with an air cushion produced by air jets directed downwards and inwards arranged round the periphery of the craft. It made a successful crossing of the English Channel, with the inventor on board.

Meanwhile Cockerell had modified the hovercraft so that the air cushion was enclosed within flexible skirts. In this form it was taken up by manufacturers throughout the world and found wide application as a passenger-carrying vehicle, for military transport and in scientific exploration and survey work. The hover principle found other uses, such as for air-beds to relieve severely burned patients and for hover mowers.

The development of the hovercraft has occupied Cockerell since then and he has been actively involved in the several companies set up to exploit the invention, including Hovercraft Development Ltd and British Hovercraft Corporation. In the 1970s and 1980s he took up the idea of the generation of electricity by wavepower; he was Founder of Wavepower Ltd, of which he was Chairman from 1974 to 1982.

[br]

Principal Honours find Distinctions

Knighted 1969. CBE 1955. FRS 1967.

LRD