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1 under refrigeration
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2 keep something under refrigeration
keep something under refrigerationiets koel bewaren/invriezenEnglish-Dutch dictionary > keep something under refrigeration
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3 refrigeration
refrigeration [rɪ‚frɪdʒə'reɪʃən]réfrigération f;∎ industrial refrigeration froid m industriel;∎ to keep sth under refrigeration garder qch au réfrigérateur►► refrigeration plant installation f frigorifiqueUn panorama unique de l'anglais et du français > refrigeration
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4 refrigeration
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5 refrigeration
réfrigération f;∎ to keep sth under refrigeration garder qch au réfrigérateurrefrigeration plant installation f frigorifique -
6 refrigeration
rɪˌfrɪdʒəˈreɪʃən сущ. охлаждение;
замораживание to keep food under refrigeration ≈ замораживать пищу охлаждение;
замораживание - * car изотермический вагон;
вагон-холодильник (медицина) лечебное применение холода refrigeration охлаждение;
замораживаниеБольшой англо-русский и русско-английский словарь > refrigeration
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7 refrigeration
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8 refrigeration
N1. ठण्डा\refrigerationकरनाKeep all meat products under refrigeration. -
9 refrigeration
[rɪˌfrɪʤ(ə)'reɪʃ(ə)n]сущ.охлаждение; замораживание -
10 packaged air conditioner
автономный кондиционер воздуха
Кондиционер воздуха со встроенным источником холода.
Примечание. Автономные кондиционеры воздуха бывают с воздушным, водяным или испарительным охлаждением конденсатора.
[ ГОСТ 22270-76]
кондиционер автономный
Кондиционер воздуха со встроенным источником холода или тепла
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]EN
packaged air conditioner
self-contained unit
complete air-conditioning unit including refrigeration compressor, cooling coils, fans, filter, automatic controls, etc. assembled into one casing.
Compare packaged terminal air-conditioning system (ptac) under air-conditioning system.
[ASHRAE Terminology of Heating, Ventilating, Air Conditioning, and Refrigeration]Параллельные тексты EN-RU
The refrigeration circuit is responsible for up to 40% of the annual energy consumption of a typical packaged air conditioning unit.
[Lennox]Более 40 % годового потребления электроэнергии в традиционных автономных кондиционерах воздуха приходится на холодильный контур.
[Перевод Интент]For a packaged air conditioner, 90% of the CO2 emissions are indirect emissions caused by the energy consumption.
[Lennox]У автономных кондиционеров 90 % выбросов CO2 являются непрямыми и обусловлены потреблением электроэнергии.
[Перевод Интент]
Тематики
Синонимы
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > packaged air conditioner
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11 packaged air conditioning unit
автономный кондиционер воздуха
Кондиционер воздуха со встроенным источником холода.
Примечание. Автономные кондиционеры воздуха бывают с воздушным, водяным или испарительным охлаждением конденсатора.
[ ГОСТ 22270-76]
кондиционер автономный
Кондиционер воздуха со встроенным источником холода или тепла
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]EN
packaged air conditioner
self-contained unit
complete air-conditioning unit including refrigeration compressor, cooling coils, fans, filter, automatic controls, etc. assembled into one casing.
Compare packaged terminal air-conditioning system (ptac) under air-conditioning system.
[ASHRAE Terminology of Heating, Ventilating, Air Conditioning, and Refrigeration]Параллельные тексты EN-RU
The refrigeration circuit is responsible for up to 40% of the annual energy consumption of a typical packaged air conditioning unit.
[Lennox]Более 40 % годового потребления электроэнергии в традиционных автономных кондиционерах воздуха приходится на холодильный контур.
[Перевод Интент]For a packaged air conditioner, 90% of the CO2 emissions are indirect emissions caused by the energy consumption.
[Lennox]У автономных кондиционеров 90 % выбросов CO2 являются непрямыми и обусловлены потреблением электроэнергии.
[Перевод Интент]
Тематики
Синонимы
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > packaged air conditioning unit
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12 self-contained air conditioner
автономный кондиционер воздуха
Кондиционер воздуха со встроенным источником холода.
Примечание. Автономные кондиционеры воздуха бывают с воздушным, водяным или испарительным охлаждением конденсатора.
[ ГОСТ 22270-76]
кондиционер автономный
Кондиционер воздуха со встроенным источником холода или тепла
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]EN
packaged air conditioner
self-contained unit
complete air-conditioning unit including refrigeration compressor, cooling coils, fans, filter, automatic controls, etc. assembled into one casing.
Compare packaged terminal air-conditioning system (ptac) under air-conditioning system.
[ASHRAE Terminology of Heating, Ventilating, Air Conditioning, and Refrigeration]Параллельные тексты EN-RU
The refrigeration circuit is responsible for up to 40% of the annual energy consumption of a typical packaged air conditioning unit.
[Lennox]Более 40 % годового потребления электроэнергии в традиционных автономных кондиционерах воздуха приходится на холодильный контур.
[Перевод Интент]For a packaged air conditioner, 90% of the CO2 emissions are indirect emissions caused by the energy consumption.
[Lennox]У автономных кондиционеров 90 % выбросов CO2 являются непрямыми и обусловлены потреблением электроэнергии.
[Перевод Интент]
Тематики
Синонимы
EN
DE
FR
5. Автономный кондиционер воздуха
E. Self-contained air conditioner
Источник: ГОСТ 22270-76: Оборудование для кондиционирования воздуха, вентиляции и отопления. Термины и определения оригинал документа
Англо-русский словарь нормативно-технической терминологии > self-contained air conditioner
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13 loss
1) потеря; (мн. ч.) потери3) затухание, ослабление4) срыв ( в следящих системах)5) вчт. проигрыш6) ущерб; убыток•losses by slagging — потери со шлаком;losses by splashing — потери со всплесками;loss on ignition — потери при прокаливании;loss of auxiliary power — потеря вспомогательных источников энергоснабженияloss of circulation — поглощение бурового раствораloss of load — отключение нагрузки; сброс нагрузкиloss of lock rate — нарушение синхронизма, выпадение из синхронизмаloss of phase — 1. отключение (обрыв) фазы 2. выпадение из синхронизма, нарушение синхронизмаloss of synchronism — нарушение синхронизма, выпадение из синхронизма-
absorption loss
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accumulated loss
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activation loss
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active return loss
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added loss
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additional iron loss
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aircraft control loss
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airscrew slip loss
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alternating hysteresis loss
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altitude loss
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antenna-to-medium coupling loss
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aperture loss
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apparent power loss
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arc-drop loss
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ashpit loss
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atmospheric evaporation loss
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attenuation loss
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attrition loss
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avoidable loss
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backwash loss
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baking loss
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balance return loss
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banking loss
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bearing friction loss
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bending loss
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bit loss
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bleeding loss of greases
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boil-off losses
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branching loss
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breathing loss
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bridging loss
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brush contact resistance loss
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brush friction loss
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bulk resistive loss
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burn-off loss
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cable loss
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canal loss
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capacitor loss
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capacity loss
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carbon loss
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carpet loss
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choke loss
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circulating current loss
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circulating loss
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cladding loss
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clad loss
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coil loss
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cold loss
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commutator loss
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component loss
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compression loss
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conduction loss
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connection loss
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constant loss
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contact loss
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convection loss
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convective loss
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conversion loss
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conveyance loss
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cooling loss
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copper loss
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core loss
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corona power loss
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corrosion loss
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counting loss
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coupling loss
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current loss
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diameter loss
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dielectric absorption loss
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dielectric loss
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dielectric hysteresis loss
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directional control loss
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discharge loss
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dispersion loss
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dissipation loss
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dissipative loss
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distillation loss
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distribution loss
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divergence loss
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dot loss
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draft loss
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dust loss
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dusting loss
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early loss
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echo return loss
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eddy-current loss
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edge loss
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elastic loss
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electric loss
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end loss
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entrance loss
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equivalent power loss
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evaporation loss
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evaporative loss
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excitation loss
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exit loss
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external beat loss
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fiber loss
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field I2R loss
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filling loss
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filter loss
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fixed loss
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flow loss
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form loss
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free-space loss
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Fresnel loss
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friction loss
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fuel tank loss
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gap loss
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generation losses
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gyromagnetic resonance loss
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harmonic tooth-ripple loss
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head loss
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head-to-tape spacing loss
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heat loss
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heat-leak loss
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hysteresis loss
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I2R loss
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idling loss
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implementation loss
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incremental hysteresis loss
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incremental losses
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individual process loss
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induction loss
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in-process loss
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insertion loss
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instrument wall loss
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insulation loss
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interaction loss
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intermodulation loss
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interstage loss
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intrinsic loss
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inverse loss
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ionization loss
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iron loss
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irrigation loss
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jacket loss
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Joule's loss
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kerf loss
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keying loss
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late loss
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latent heat loss
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leakage loss
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light leakage loss
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line loss
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linewidth loss
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link loss
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load loss
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magnetic hysteresis loss
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magnetic iron loss
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magnetic loss
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mass loss
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mechanical loss
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melting loss
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metal loss
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milling loss
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mining loss
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mismatch loss
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mode conversion loss
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multipath loss
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net loss
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no-load loss
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ohmic loss
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oil stock loss
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on-state power loss
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open circuit loss
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operational loss
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optical loss
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oven loss
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overall loss
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oxidational loss
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partial mud loss
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path loss
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permeation loss of gasoline
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piezoelectric loss
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pipe bend loss
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pipe loss
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plasma loss
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pointing loss
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power loss
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preparation loss
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pressure loss
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pressure rapid loss
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process loss
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propagation loss
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pumping loss
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radiant loss
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radiation loss
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reactive power loss
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real loss
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refining loss
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reflection loss
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refraction loss
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refrigeration loss
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regularity return loss
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reject loss
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relaxation loss
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residual loss
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resistance loss
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resonance loss
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restriction loss
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return loss
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rheostatic loss
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roasting loss
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rotational loss
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rusting loss
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salting loss
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scattering loss
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secondary loss
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self-demagnetization loss
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shadow loss
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sheath loss
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short-circuit loss
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shrinkage loss
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shutdown loss
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signing return loss
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slip loss
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specific loss
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spillover loss
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splicing loss
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spreading loss
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stack loss
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standby loss
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standing evaporation loss
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startup thermal loss
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steady-state loss
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storage loss
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strand loss
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stray-field loss
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stray-load loss
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supplementary loss
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tailing loss
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targeting loss
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temperature loss
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thickness loss
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torque retention loss
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total loss
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tracking loss
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transformer loss
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transition loss
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transmission line loss
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transmission loss
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treatment loss
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tropospheric loss
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turn-off power loss
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vaporization loss
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variable loss
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volatilization loss
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voltage loss
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volt-ampere loss
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volumetric loss
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wall loss
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water loss
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wheeling loss
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14 Diesel, Rudolph Christian Karl
SUBJECT AREA: Steam and internal combustion engines[br]b. 1858 Paris, Franced. 1913 at sea, in the English Channel[br]German inventor of the Diesel or Compression Ignition engine.[br]A German born in Paris, he was educated in Augsburg and later in Munich, where he graduated first in his class. There he took some courses under Professor Karl von Linde, pioneer of mechanical refrigeration and an authority on thermodynamics, who pointed out the low efficiency of the steam engine. He went to work for the Linde Ice Machine Company as an engineer and later as Manager; there he conceived a new basic cycle and worked out its thermodynamics, which he published in 1893 as "The theory and construction of a rational heat motor". Compressing air adiabatically to one-sixteenth of its volume caused the temperature to rise to 1,000°F (540°C). Injected fuel would then ignite automatically without any electrical system. He obtained permission to use the laboratories of the Augsburg-Nuremburg Engine Works to build a single-cylinder prototype. On test it blew up, nearly killing Diesel. He proved his principle, however, and obtained financial support from the firm of Alfred Krupp. The design was refined until successful and in 1898 an engine was put on display in Munich with the result that many business people invested in Diesel and his engine and its worldwide production. Diesel made over a million dollars out of the invention. The heart of the engine is the fuel-injection pump, which operates at a pressure of c.500 psi (35 kg/cm). The first English patent for the engine was in 1892. The firms in Augsburg sent him abroad to sell his engine; he persuaded the French to adopt it for submarines, Germany having refused this. Diesel died in 1913 in mysterious circumstances, vanishing from the Harwich-Antwerp ferry.[br]Further ReadingE.Diesel, 1937, Diesel, derMensch, das Werk, das Schicksal, Hamburg. J.S.Crowther, 1959, Six Great Engineers, London.John F.Sandfort, 1964, Heat Engines.IMcNBiographical history of technology > Diesel, Rudolph Christian Karl
См. также в других словарях:
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