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1 internal latent heat
The English-Russian dictionary general scientific > internal latent heat
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2 internal latent heat
1) Нефть: внутренняя теплота испарения2) Космонавтика: скрытая теплота газообразования, скрытая теплота парообразования3) Электрохимия: внутренняя теплота парообразования -
3 internal latent heat
Англо-русский словарь нефтегазовой промышленности > internal latent heat
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4 internal latent heat
English-Russian dictionary of chemistre > internal latent heat
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5 internal latent heat
உள்ளார்ந்த உள்ளுறை வெப்பம் -
6 internal latent heat
Englsh-Russian aviation and space dictionary > internal latent heat
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7 internal latent heat
n прихована теплота газоутворенняEnglish-Ukrainian military dictionary > internal latent heat
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8 heat
тепло; нагрев; обогрев; теплота; нагревать, обогревать— net heat -
9 heat
тепло; теплота; тепловая энергия; нагрев; накал; греть; нагревать heat of condensation (скрытая) теплота конденсации heat of decomposition теплота реакции разложения (распада) heat of delution теплота разбавления ила растворения heat of dissociation теплота диссоциации heat of formation теплота образования (соединения) heat of friction теплота трения heat of fusion теплота плавления heat of recombination теплота рекомбинации heat of transfer теплота переноса heat of transition теплота превращения heat of vaporization теплота парообразования (испарения) heat aerodynamic - аэродинамический нагрев, тепло от аэродинамического нагрева heat black - нагрев при температуре ниже начала свечения heat blue - нагрев до синего цвета heat boiling - температура (точка) кипения heat calcining - температура обжига heat central - тепло от центральной отопительной системы heat cherry-red - нагрев до вишнево-красного каления heat combination (combining) - теплота (тепловой эффект) образования heat combustion - теплота сгорания heat convected - тепло, передаваемое конвекцией heat dark - тепловая энергия невидимой части спектра; нагрев при температуре ниже начала свечения heat dark-cherry - нагрев до темно-вишневого каления heat dark-orange - нагрев до темно-оранжевого каления heat dark-red - нагрев до темно-красного каления heat direct waste - непосредственные потери тепла heat dissipated - рассеянное тепло heat dissociation - теплота диссоциации heat dull-red - нагрев до темно-красного каления heat equivalent specific - эквивалентная теплоемкость heat evaporation - теплота парообразования (испарения) heat exchanged - переданное или превращенное тепло; поглощенное тепло (напр. в теплообменнике) heat friction(al) - теплота трения heat glowing- - нагрев до белого каления heat humid - теплосодержание паровоздушной смеси heat hydration - тепло гидратации heat ignition - теплота зажигания или воспламенения heat induction - индукционный нагрев heat internal latent - скрытая теплота парообразования heat isobaric - of combustion изобарическая теплотворность горючего heat latent - скрытая теплота heat latent - of melting скрытая теплота плавления heat latent - of vaporization скрытая теплота парообразования (испарения) heat low-red - нагрев до темно-красного каления heat mass specific - удельная массовая теплоемкость heat mean specific - средняя удельная теплоемкость heat melting - (скрытая) теплота плавления heat molar (mole) - молярная (удельная) теплоемкость heat molecular - молекулярная теплоемкость heat net - полезное (используемое) тепло heat orange - нагрев до оранжевого каления heat radiant - лучистая теплота heat radiated - излученная теплота; тепло, передаваемое излучением heat radiating - лучистая теплота heat reaction - теплота реакции heat red - нагрев до красного каления heat reduction - теплота (реакции) восстановления heat rejected - отводимое тепло heat sensible - теплосодержание heat solar - солнечная теплота heat solidification - теплота отвердевания (затвердевания) heat specific - удельная теплоемкость heat stand-by - предпусковой прогрев heat steam - теплота конденсации пара heat total - полная теплота; энтальпия, теплосодержание heat true specific - истинная удельная теплоемкость heat vaporization - теплота парообразования (испарения) heat variable specific - переменная (удельная) теплоемкость heat viscous - теплота внутреннего трения в вязкой жидкости heat waste - отработанное (отходящее) тепло heat welding - температура сварки heat white - нагрев до белого каления heat yellow - нагрев до желтого каления -
10 heat
1) жар
2) жаровой
3) забег
4) каление
5) нагревать
6) накаливать
7) натапливать
8) натопить
9) обогревать
10) плавочный
11) подогрев
12) подогревать
13) тепло
14) тепловоспринимающий
15) тепловый
16) теплозащитный
17) теплообменный
18) теплота
19) тепловой
20) тепловая энергия
21) нагреваться
22) накаливаться
23) греть
24) калильный
25) жаровый
26) котел
27) накалить
28) теплоемкость
29) калория
– accumulation of heat
– available heat
– blow heat
– bring to red heat
– by-product heat
– cold heat
– convection heat
– cupola heat
– diverted heat
– evaporation heat
– external heat
– finishing off a heat
– generate heat
– heat abstraction
– heat ageing
– heat balance
– heat barrier
– heat blower
– heat capacity
– heat carrier
– heat chamber
– heat conducting
– heat conduction
– heat conductivity
– heat conductor
– heat consumer
– heat content
– heat demand
– heat detector
– heat differential
– heat dissipation
– heat emission
– heat energy
– heat engine
– heat engineering
– heat exchange
– heat exchanger
– heat exchanging
– heat filter
– heat finishing
– heat flow
– heat generation
– heat generator
– heat input
– heat insulation
– heat log
– heat model
– heat of combustion
– heat of formation
– heat of superheat
– heat of vaporization
– heat peeling
– heat pick-up
– heat pipe
– heat production
– heat productivity
– heat rate
– heat rating
– heat rays
– heat recovery
– heat regeneration
– heat removal
– heat removing
– heat requirement
– heat resistance
– heat run
– heat sample
– heat schedule
– heat shield
– heat shielding
– heat shock
– heat sink
– heat source
– heat sterilization
– heat storage
– heat stress
– heat supply
– heat supplying
– heat tapping
– heat test
– heat time
– heat transfer
– heat transmission
– heat transmitting
– heat transport
– heat treatment
– heat utilization
– heat waves
– internal heat
– Joulean heat
– latent heat
– liberate heat
– low heat value
– low-grade heat
– melting heat
– overblow heat
– pour heat
– progress of heat
– quantity of heat
– radiant heat
– radiogenic heat
– recover heat
– red heat
– residual heat
– resistance to heat
– sensible heat
– specific heat
– store heat
– surplus heat
– total heat
– utilize heat
– viscous heat
– waste heat
– waste-gas heat
– welding heat
– work the heat
ablation heat shield — <cosm.> экран тепловой эрозионный
counter-current heat exchanger — противоточный теплообменник
cross-flow heat exchanger — теплообменник с перекрестным током
float-head heat exchanger — теплообменник с плавающей головкой
heat exchange coefficient — <phys.> коэффициент теплообмена
heat transfer coefficient — <phys.> коэффициент теплоотдачи, коэффициент теплопередачи
intermediate heat exchanger — <engin.> теплообменник промежутночный
mechanical equivalent of heat — механический эквивалент тепла
U-tube heat exchanger — теплообменник с У-образными трубками
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11 heat
1. теплота2. температура; степень нагрева -
12 heat
/hi:t/ * danh từ - hơi nóng, sức nóng; sự nóng - (vật lý) nhiệt =internal heat+ nội nhiệt =latent heat+ ẩn nhiệt =specific heat+ tỷ nhiệt =heat of evaporation+ nhiệt bay hơi =heat of fashion+ nhiệt nóng chảy - sự nóng bức, sự nóng nực - trạng thái bừng bừng (của cơ thể); trạng thái viêm tấy - vị cay (ớt...) - sự nóng chảy, sự giận dữ =to get into a state of fearful heat+ nổi giận đùng đùng; nóng nảy đáng sợ - sự nổi nóng, sự nồng nhiệt, sự hăng hái =the heat of youth+ sự sôi nổi của tuổi trẻ - sự động đực =on (in, at) heat+ động đực - sự cố gắng một mạch, sự làm một mạch =at a heat+ làm một mạch - (thể dục,thể thao) cuộc đấu, cuộc đua =trial heats+ cuộc đấu loại =final heat+ cuộc đấu chung kết - (kỹ thuật) sự nung - (từ Mỹ,nghĩa Mỹ), (từ lóng) sự tăng cường thi hành luật pháp; sự tăng cường điều tra; sự thúc ép, sự cưỡng ép * ngoại động từ - đốt nóng, nung nóng; làm nóng, làm bừng bừng =to heat up some water+ đun nước =to heat oneself+ làm cho người nóng bừng bừng - làm nổi giận; làm nổi nóng - kích thích, kích động; làm sôi nổi lên - (kỹ thuật) nung * nội động từ ((thường) + up) - nóng lên, trở nên nóng - nổi nóng, nổi giận - sôi nổi lên -
13 internal heat
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14 specific
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15 Watt, James
SUBJECT AREA: Steam and internal combustion engines[br]b. 19 January 1735 Greenock, Renfrewshire, Scotlandd. 19 August 1819 Handsworth Heath, Birmingham, England[br]Scottish engineer and inventor of the separate condenser for the steam engine.[br]The sixth child of James Watt, merchant and general contractor, and Agnes Muirhead, Watt was a weak and sickly child; he was one of only two to survive childhood out of a total of eight, yet, like his father, he was to live to an age of over 80. He was educated at local schools, including Greenock Grammar School where he was an uninspired pupil. At the age of 17 he was sent to live with relatives in Glasgow and then in 1755 to London to become an apprentice to a mathematical instrument maker, John Morgan of Finch Lane, Cornhill. Less than a year later he returned to Greenock and then to Glasgow, where he was appointed mathematical instrument maker to the University and was permitted in 1757 to set up a workshop within the University grounds. In this position he came to know many of the University professors and staff, and it was thus that he became involved in work on the steam engine when in 1764 he was asked to put in working order a defective Newcomen engine model. It did not take Watt long to perceive that the great inefficiency of the Newcomen engine was due to the repeated heating and cooling of the cylinder. His idea was to drive the steam out of the cylinder and to condense it in a separate vessel. The story is told of Watt's flash of inspiration as he was walking across Glasgow Green one Sunday afternoon; the idea formed perfectly in his mind and he became anxious to get back to his workshop to construct the necessary apparatus, but this was the Sabbath and work had to wait until the morrow, so Watt forced himself to wait until the Monday morning.Watt designed a condensing engine and was lent money for its development by Joseph Black, the Glasgow University professor who had established the concept of latent heat. In 1768 Watt went into partnership with John Roebuck, who required the steam engine for the drainage of a coal-mine that he was opening up at Bo'ness, West Lothian. In 1769, Watt took out his patent for "A New Invented Method of Lessening the Consumption of Steam and Fuel in Fire Engines". When Roebuck went bankrupt in 1772, Matthew Boulton, proprietor of the Soho Engineering Works near Birmingham, bought Roebuck's share in Watt's patent. Watt had met Boulton four years earlier at the Soho works, where power was obtained at that time by means of a water-wheel and a steam engine to pump the water back up again above the wheel. Watt moved to Birmingham in 1774, and after the patent had been extended by Parliament in 1775 he and Boulton embarked on a highly profitable partnership. While Boulton endeavoured to keep the business supplied with capital, Watt continued to refine his engine, making several improvements over the years; he was also involved frequently in legal proceedings over infringements of his patent.In 1794 Watt and Boulton founded the new company of Boulton \& Watt, with a view to their retirement; Watt's son James and Boulton's son Matthew assumed management of the company. Watt retired in 1800, but continued to spend much of his time in the workshop he had set up in the garret of his Heathfield home; principal amongst his work after retirement was the invention of a pantograph sculpturing machine.James Watt was hard-working, ingenious and essentially practical, but it is doubtful that he would have succeeded as he did without the business sense of his partner, Matthew Boulton. Watt coined the term "horsepower" for quantifying the output of engines, and the SI unit of power, the watt, is named in his honour.[br]Principal Honours and DistinctionsFRS 1785. Honorary LLD, University of Glasgow 1806. Foreign Associate, Académie des Sciences, Paris 1814.Further ReadingH.W.Dickinson and R Jenkins, 1927, James Watt and the Steam Engine, Oxford: Clarendon Press.L.T.C.Rolt, 1962, James Watt, London: B.T. Batsford.R.Wailes, 1963, James Watt, Instrument Maker (The Great Masters: Engineering Heritage, Vol. 1), London: Institution of Mechanical Engineers.IMcN -
16 image
1) изображение || изображать, получать изображение, формировать изображение2) отпечаток3) фотографический снимок, фотоснимок4) отображение || отображатьАнгло-русский словарь по полиграфии и издательскому делу > image
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17 energy
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absorbed radiation energy
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absorbed-in-compression energy
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absorbed-in-fracture energy
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acoustic energy
-
activation energy of friction
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activation energy
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active energy
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adhesive binding energy
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allowed energy
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alternative energy
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atomic energy
-
average photon energy
-
band-gap energy
-
base-load energy
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base energy
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binding energy
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biomass energy
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bonding energy
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bond energy
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boundary energy
-
braking energy
-
break-up energy
-
brittle fracture energy
-
brittle shelf energy
-
buoyancy energy
-
bus-bar energy
-
capillary energy
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charge energy
-
Charpy impact energy
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Charpy V-notch shelf energy
-
Charpy V-notch energy
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chemical energy
-
clean energy
-
cohesive binding energy
-
cohesive bonding energy
-
cohesive energy
-
comfort energy
-
conduction band energy
-
Coulomb energy
-
crack closure energy
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crack energy
-
crude energy
-
cutoff energy
-
decay energy
-
derived energy
-
discharge energy
-
disintegration energy
-
dissociation energy
-
distortion strain energy
-
distortion energy
-
ductile fracture energy
-
elastic strain energy
-
elastic energy
-
electric energy
-
electric field energy
-
electrical potential energy
-
electrochemical free energy
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electrokinetic energy
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electrolytic dissociation energy
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electromagnetic energy
-
electron energy
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electrostatic energy
-
embrittling energy
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epithermal energy
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excess energy
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exchange energy
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excitation energy
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exhaust energy
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field energy
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firm energy
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fission energy
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fracture energy
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free energy
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free surface energy
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frictional energy
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fusion energy
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fusion plasma energy
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gap energy
-
generating station auxiliary energy
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generating station net output energy
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geokinetic energy
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geothermal energy
-
grain-boundary energy
-
heat energy
-
Helmholtz free energy
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Helmholtz energy
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hole-electron energy
-
hydration energy
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hydraulic energy
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hysteresis energy
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impurity ionization energy
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incident energy
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incident solar energy
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input energy
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instantaneous strain energy
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interaction energy
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interface energy
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interfacial energy
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internal energy
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ionization energy
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kinetic energy
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kink energy
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latent energy
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lattice energy
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light energy
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low-grade energy
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luminous energy
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magnetic energy
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magnetic fusion energy
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mechanical energy
-
misfit energy
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motional energy
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net energy
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noise energy
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nonfirm energy
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nuclear energy
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off-peak energy
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on-peak energy
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optical energy
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particle energy
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pattern energy
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peak energy
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peel energy
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photon energy
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plastic strain energy
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plastic energy
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portable energy
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potential energy
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pressure energy
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primary energy
-
prompt gamma energy
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pulse energy
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pumping energy
-
quantum energy
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radiant energy
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radiant pulse energy
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reactive energy
-
refuse-to-gas energy
-
released energy
-
reservoir energy
-
resilience energy
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resonance-absorption energy
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rest energy
-
run-of-river energy
-
seasonal storage energy
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secondary energy
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separation energy
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sideband energy
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soft energy
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solar energy
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sound energy
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specific energy
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spike leakage energy
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stacking fault energy
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stored energy
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strain energy
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stream energy
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sun energy
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surface energy
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thermal energy
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thermoelectric energy
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threshold energy
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tidal energy
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transient energy
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translational energy
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turbulent energy
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turbulent kinetic energy
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upper shelf energy
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up-the-ladder energy
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wake energy
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waste energy
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zero-point energy
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