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1 dust spreading
binder spreading — разлив вяжущего; распределение вяжущего
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2 dust spreading
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3 dust spreading
1) Геология: нанесение инертной пыли2) Горное дело: распределение инертной пыли, распространение пыли -
4 dust spreading
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5 dust spreading
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6 dust spreading
распределение инертной пыли, распространение пыли -
7 spreading
распространение; простирание; распределение; расширение; растягивание; расковка; раздача; расплющивание; плющение; наварка; наплавка; разбухание; увеличение объёма; разравнивание; прорезинивание; фрикционирование; шпредингование- spreading of track - dust spreading - hand spreading - waste spreading -
8 spreading
распределение; распространениеbinder spreading — разлив вяжущего; распределение вяжущего
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9 spreading
1. спрединг, раздвижение 2. распространение; простирание
spreading of ocean floor спрединг океанического дна
angular spreading угловое распространение (водной массы)
dust spreading нанесение инертной пыли
ocean-floor [sea-floor] spreading спрединг океанического дна
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10 spreading dust
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11 spreading dust
Геология: распределение инертной пыли -
12 dust and smell spreading
English-Russian mining dictionary > dust and smell spreading
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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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warm-end loss
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waste-heat loss
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water loss
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watt loss
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weight loss
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wheeling loss
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windage loss -
14 hypothesis
гипотеза
hypothesis of convection currents гипотеза подкоровых течений
hypothesis of isostasy изостатическая гипотеза
alkaline sulfide hypothesis щёлочно-сульфидная гипотеза
asthenolith hypothesis астенолитная гипотеза
"big bang" hypothesis гипотеза большого взрыва
blister hypothesis гипотеза вспучивания
continuous-creation hypothesis теория стационарного состояния расширяющейся Вселенной
contraction hypothesis гипотеза контракции
crust-dragging hypothesis гипотеза волочения земной коры
crust-sliding hypothesis гипотеза скольжения земной коры
dust-cloud hypothesis гипотеза пылевого облака
fracture hypothesis гипотеза дробления
gas-fluxing hypothesis гипотеза газового плавления
gas-pocket hypothesis гипотеза заполнения газом пустот
lateral secretion hypothesis латерально-секреционная гипотеза (рудообразования)
multiple-working hypothesis метод множественных рабочих гипотез
nebular hypothesis небулярная [космогоническая] гипотеза (происхождения Вселенной)
planetesimal hypothesis планетезимальная гипотеза, гипотеза пылевого облака
primeval-fireball hypothesis гипотеза большого взрыва
pulsation hypothesis гипотеза пульсации
spreading floor hypothesis гипотеза раздвижения океанического дна, гипотеза спрединга
tetrahedral hypothesis тетраэдрическая гипотеза
tidal hypothesis приливная гипотеза
Wegener hypothesis гипотеза Вегенера
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15 polychlorobiphényle
полихлорированный бифенил
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
polychlorinated biphenyl
PCBs are a family of chemical compounds which do not exist in nature but which are man-made. Commercial mixtures are clear, pale yellow liquids, manufactured by the replacement of hydrogen atoms on the biphenyl molecule by chlorine. Because of their physical properties, PCBs are commonly found in electrical equipment which requires dielectric fluid such as power transformers and capacitors, as well as in hydraulic machinery, vacuum pumps, compressors and heat-exchanger fluids. Other uses include: lubricants, fluorescent light ballasts, paints, glues, waxes, carbonless copy paper, inks including newspapers, dust-control agents for dirt roads, solvents for spreading insecticides, cutting oils. PCBs are stable compounds and although they are no longer manufactured they are extremely persistent and remain in huge quantities in the atmosphere and in landfill sites. They are not water-soluble and float on the surface of water where they are eaten by aquatic animals and so enter the food chain. PCBs are fat-soluble, and are therefore easy to take into the system, but difficult to excrete. (Source: PZ / PHC)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > polychlorobiphényle
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16 Polychlorbiphenyl
полихлорированный бифенил
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
polychlorinated biphenyl
PCBs are a family of chemical compounds which do not exist in nature but which are man-made. Commercial mixtures are clear, pale yellow liquids, manufactured by the replacement of hydrogen atoms on the biphenyl molecule by chlorine. Because of their physical properties, PCBs are commonly found in electrical equipment which requires dielectric fluid such as power transformers and capacitors, as well as in hydraulic machinery, vacuum pumps, compressors and heat-exchanger fluids. Other uses include: lubricants, fluorescent light ballasts, paints, glues, waxes, carbonless copy paper, inks including newspapers, dust-control agents for dirt roads, solvents for spreading insecticides, cutting oils. PCBs are stable compounds and although they are no longer manufactured they are extremely persistent and remain in huge quantities in the atmosphere and in landfill sites. They are not water-soluble and float on the surface of water where they are eaten by aquatic animals and so enter the food chain. PCBs are fat-soluble, and are therefore easy to take into the system, but difficult to excrete. (Source: PZ / PHC)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > Polychlorbiphenyl
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17 polychlorinated biphenyl
полихлорированный бифенил
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
polychlorinated biphenyl
PCBs are a family of chemical compounds which do not exist in nature but which are man-made. Commercial mixtures are clear, pale yellow liquids, manufactured by the replacement of hydrogen atoms on the biphenyl molecule by chlorine. Because of their physical properties, PCBs are commonly found in electrical equipment which requires dielectric fluid such as power transformers and capacitors, as well as in hydraulic machinery, vacuum pumps, compressors and heat-exchanger fluids. Other uses include: lubricants, fluorescent light ballasts, paints, glues, waxes, carbonless copy paper, inks including newspapers, dust-control agents for dirt roads, solvents for spreading insecticides, cutting oils. PCBs are stable compounds and although they are no longer manufactured they are extremely persistent and remain in huge quantities in the atmosphere and in landfill sites. They are not water-soluble and float on the surface of water where they are eaten by aquatic animals and so enter the food chain. PCBs are fat-soluble, and are therefore easy to take into the system, but difficult to excrete. (Source: PZ / PHC)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > polychlorinated biphenyl
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18 cast resin transformer
трансформатор с литой изоляцией
Сухой трансформатор, в котором основной изолирующей средой и теплоносителем служит электроизоляционный компаунд.
[ ГОСТ 16110-82]
[http://www.rospol-electro.ru/production_transformers_resin.htm]
Трансформатор с литой изоляцией (без кожуха):1 - Выводы низшего напряжения; 2 - Подъемные петли; 3 - Коробка для подключения датчиков температуры; 4 - Заводская табличка; 5 - Стержень (часть магнитной системы); 6 - Обмотки высшего напряжения (Обмотки низшего напряжения не видны, они находятся "под" обмотками высшего напряжения. Все обмотки являются концентрическими, т. е. выполнены в виде цилиндров и концентрически расположегы на стержне магнитной системы); 7 - Выводы высшего напряжения (перемычки соединяют обмотки высшего напряжения по схеме "треугольник"); 8 - Устройство переключения ответвлений обмоток для изменения коэффициента трансформации; 9 - Платформа для перемещения.
Параллельные тексты EN-RU
Cast resin transformers
Dry-type transformers, with one or more enclosed windings, are usually called cast resin transformers.
These types, due to developments in construction techniques, are more and more widely used because of their reliability, their lower environmental impact compared to oil transformers, and because they reduce the risks of fire and spreading polluting substances in the environment.
Medium-voltage windings, made with wire coils or, even better, insulated aluminium strips, are placed in a mould into which the epoxy resin is poured under vacuum, to avoid inclusions of gas in the insulation.
The windings are then enclosed in a cylindrical enclosure, which is totally sealed, mechanically strong and has a smooth surface which impedes both the deposit of dust and the action of polluting agents.
Low-voltage windings are generally made of a single aluminium sheet, the same height as the coil, insulated by suitable material and heat treatment.
Cast resin transformers use class F 155°C insulating material, allowing for a maximum temperature rise of 100°K.
[Legrand]Tрансформаторы с литой изоляцией
Сухие трансформаторы с одной или несколькими обмотками, залитыми компаундом, называют трансформаторами с литой изоляцией. Благодаря постоянному совершенствованию конструкции трансформаторы данного типа находят все более широкое применение, поскольку обладают высокой надежностью и более низким, по сравнению с масляными трансформаторами, воздействием на окружающую среду, а также меньшей опасностью возгорания и отсутствием выделения загрязняющих веществ в окружающее пространство.
Обмотки среднего (высшего) напряжения изготавливают из провода или, что еще лучше, из изолированной алюминиевой шины. Такие обмотки помещают в форму, в которую после вакуумирования подают эпоксидную смолу. Данная технология исключает наличие газа в изоляции. Затем обмотки помещают в герметичную механически прочную цилиндрическую оболочку с гладкой ровной поверхностью, предотвращающей скапливание пыли и загрязняющих веществ, оказывающих отрицательное воздействие.
Обмотки низшего напряжения, как правило, изготавливают из алюминиевой полосы такой же высоты, что и высота обмотки высшего напряжения. Обмотки низшего напряжения изолируют соответствующим материалом и подвергают тепловой обработке. Применяемая в трансформаторах в качестве изоляционного материала эпоксидная смола имеет класс нагревостойкости F, что соответствует температуре 155 °С. Это означает, что в процессе эксплуатации трансформатора допускается превышение температуры обмоток на 100 К.
[Перевод Интент]Тематики
Классификация
>>>EN
Англо-русский словарь нормативно-технической терминологии > cast resin transformer
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