Výsledky hledání "solar thermal power unit" v anglicko-českém slovníku:
| Slovo | Překlad | Výslovnost | Definice | Viz také |
|---|---|---|---|---|
| solar thermal power unit | tepelná sluneční elektrárna | [səulə Өə:məl pauə ju:nit] | A power station in which thermal energy received directly from the sun is converted into electrical energy. | solar thermal power station |
| solar thermal power station | tepelná sluneční elektrárna | [səulə Өə:məl pauə steišən] | A power station in which thermal energy received directly from the sun is converted into electrical energy. | heliothermal power station, solar thermal electric power plant, solar thermal power unit |
| solar thermal electric power plant | tepelná sluneční elektrárna | [sәulә Өә:mәl әlektrik pauә pla:nt] | A power station in which thermal energy received directly from the sun is converted into electrical energy. | solar thermal power station |
| solar thermal collector | solární kolektor | [sәulә Өә:mәl kәlektә] | A device for extracting the energy of the sun directly into a more usable or storable form. | |
| solar power satellite | solární satelit | [sәulә pauә sætәlait] | ||
| solar power tower | solární pec | [sәulә pauә tauә] | A device that collects and often concentrates solar radiation for producing high-temperature heat, as for cooking. Solar furnaces usually incorporate mirrors to focus the sun's rays on the material under heat treatment or being melted. | solar furnace |
| unit | jednotka | [ju:nit] | ||
| hydrological unit | hydrologická jednotka | [haidrəlodžikəl ju:nit] | A geographic area representing a part or all of a surface drainage basin or distinct hydrological feature. | |
| EU Allowance Unit | emisní povolenka (EU) | [i: ju: әlauәns ju:nit] | An allowance to emit one tonne of carbon dioxide equivalent during a specified period. | EUA, allowance |
| management unit | hospodářská jednotka | [mænidžmənt ju:nit] | ||
| functional unit | funkční jednotka | [faŋšәnәl junit] | Quantified performance of a product system for use as a reference unit. | |
| bioclimatic unit | bioklimatická jednotka | [bajəklaimætik junit] | Terrain (e.g. an altitudinal band) with a distinctive climate, vegetation, and animal community. | |
| cereal unit | obilní jednotka | [si:rijəl junit] | ||
| operating unit | pracovní souprava | [opəreitiŋ ju:nit] | working unit | |
| organizational unit | organizační jednotka | [o:gənaizeišənəl ju:nit] | ||
| working unit | pracovní souprava | [wә:kiŋ ju:nit] | operating unit | |
| confining unit | nepropustné podloží, nepropustná vrstva | [kәnfainiŋ ju:nit] | confining bed, confining layer, confining stratum | |
| Dobson unit | Dobsonova jednotka | [dobsən junit] | A unit of measurement used to calculate the total thickness of the ozone layer. | DU |
| unit process | jednotkový proces | [ju:nit proses] | Smallest element considered in the life cycle inventory analysis for which input and output data are quantified. | |
| unit-process | funkční jednotka (ve spojení s LCA se používá výraz , , functional unit") | [ju:nit prəuses] | Smallest portion of a product system for which data are collected when performing a life cycle assessment. | |
| Emissions Reduction Unit | emisní jednotka ERU (dle Kjótského protokolu) | [әmišənz ridәkšәn ju:nit] | Equal to one metric tonne of CO2-equivalent emissions reduced or sequestered arising from a Joint Implementation project. | ERU |
| Assigned Amount Unit | jednotka přiděleného množství AA | [әsaind әmaunt ju:nit] | AAU equals 1 tonne (metric ton) of CO2-equivalent calculated using the Global Warming Potential. A unit defined under Kyoto Protocol for expression of emission reduction targets; any Annex B (to the Kyoto protocol) Party can sell these units to another An | AAU |
| evolutionary significant unit | evolučně významná jednotka | [evəlu:šənəri signifikәnt ju:nit] | Partially genetically different population that represents a significant component of the evolutionary legacy of the species. | |
| catalytic combustion unit | katalytická spalovací jednotka, katalytický dopalovací hořák | [kætəlitik kəmbəsčən junit] | A device for destroying the carbon monoxide in the emission stream by oxidising it into carbon dioxide and water. | catalytic combustor, catalytic afterburner |
| working plan unit | lesní hospodářský celek | [wə:kiŋ plæn ju:nit] | ||
| Emission Reduction Unit | jednotka snížení emisí | [әmišәn ridәkšәn ju:nit] | A unit issued pursuant to Article 6 of the Kyoto Protocol and the decisions adopted pursuant to the UNFCCC or the Kyoto Protocol. | ERU |
| thermal | tepelný, teplotní, termální, termický | [Өə:məl] | ||
| Certified Emission Reduction Unit (CER) | certifikovaná emisní jednotka CER (dle Kjótského protokolu) | [sә:tifaid i:mišәn ridәkšәn ju:nit] [si: i: a:] | Equal to one metric tonne of CO2-equivalent emissions reduced or sequestered through Clean Development Mechanism project, calculated using Global Warming Potentials. | |
| thermal irrigation | oteplovací závlaha | [Өə:məl irigeišən] | ||
| thermal mass | termální kapacita | [Өә:mәl mæs] | The capacity of a body to store heat. | |
| thermal pollution | tepelné znečištění, termální znečištění | [Өə:məl pəlu:šən] | The release of substances into an environment that results in undesired rises in ambient temperature above that possible by an input of natural solar radiation. | |
| thermal precipitator | tepelný separátor | [Өə:məl pri:sipiteitə] | A precipitator operating on the principle that a hot body situated in a cloud of dust develops a particle-free zone around it. | |
| thermal radiation | tepelné záření, tepelné vyzařování | [Өə:məl reidi:eišən] | ||
| thermal shock | tepelný šok | [Өə:məl šok] | A sharp change in water temperature that kills or harms fish or other aquatic life. | |
| thermal spring | termální pramen, vřídlo | [Өə:məl spriŋ] | A spring of continuously flowing hot water ranging in temperature from 20°C to boiling point. | hot spring |
| thermal balance | tepelná bilance | [Өə:məl bæləns] | heat balance | |
| thermal stratification | teplotní stratifikace, teplotní zvrstvení (zvl. vody) | [Өə:məl strætifikeišən] | The stratification of a body of water caused by temperature-induced density differences. | |
| thermal capacity | tepelná jímavost | [Өә:mәl kәpæsiti] | heat capacity | |
| thermal treatment | tepelná úprava | [Өə:məl tri:tmənt] | The treatment of hazardous waste in a device that uses elevated temperatures as the primary means to change the chemical, physical or biological character or composition of the hazardous waste (e.g. incineration or pyrolysis). | |
| thermal conductivity | tepelná vodivost | [Өə:məl kondaktiviti] | The amount of heat transmitted in unit time across unit area of a slab of a substance of unit thickness when the temperature difference between the faces of the slab is 1°C. | |
| thermal cracking | termické krakování | [Өə:məl krækiŋ] | ||
| thermal depression | termická deprese | [Өə:məl diprešən] | An area of low pressure that results from the intense heating of continental areas during the day leading to a conventional rising of air currents. | |
| thermal efficiency | tepelná účinnost | [Өə:məl әfišənsi] | ||
| thermal enrichment | tepelné obohacení | [Өə:məl inričmənt] | A beneficial effect in an aquatic ecosystem from a rise in water temperature. | |
| air thermal pollution | tepelné znečištění ovzduší | [eə: Өə:məl pəlu:šən] | The raising of the air temperature by artificial means, notably by heat discharges from power plants. | |
| thermal erosion | termální eroze, teplotní ovlivnění | [Өə:məl әrəužən] | The environmental degradation of the permafrost resulting from human activity. | |
| thermal expansion and contraction | tepelná rožtaznost a smrštění, tepelná expanze a kontrakce | [Өə:məl ekspænšən ænd kəntrakšən] | A process that may cause the disintegration of rock in areas of large diurnal temperature ranges. | |
| gaseous thermal yield | tepelný výtěžek plynu | [gæšәs Өәmәl ji:ld] | ||
| thermal electric plant | tepelná elektrárna | [Өə:məl әlektrik pla:nt] | A power plant that utilises heat to produce steam to turn a turbine. | |
| Ocean Thermal Energy Conversion | využití tepelné energie oceánů | [əušən Өə:məl enədži kәnvə:žən] | Exploitation of the temperature difference existing between the surface and the depth of oceans to produce useful energy. Such a difference constitutes a system that can be used to vaporize and condense a working fluid to drive a turbine. | OTEC |
| solar | sluneční, solární | [səulə] | sun | |
| solar drying | sušení sluneční energií | [səulə draiiŋ] | The utilisation of heat derived from the sun for drying agricultural and industrial products. | |
| solar wall | Trombeho stěna | [sәulә wo:l] | A collector-wall consisting of a massive south-facing, concrete wall, which is painted black and covered with a sheet of glass. An air-space runs between the concrete and the glass and the chimney effect causes the heat to rise. | Trombe-Michel wall, solar wall, (mass) Trombe wall, collector-storage wall |
| solar energy | solární energie, sluneční energie | [səulə enədži] | 1. The radiant energy which originates from the sun. 2. The utilisation of the sun 's rays to provide a renewable source of energy for human use. | |
| solar furnace | solární pec | [səulə fə:nis] | A device that collects and often concentrates solar radiation for producing high-temperature heat, as for cooking. Solar furnaces usually incorporate mirrors to focus the sun's rays on the material under heat treatment or being melted. | solar power tower |
| solar chimney | solární věž, solární komín | [sәulә čimni] | A power plant using a current of air heated by the sun rising through a tower to drive turbines. | |
| solar oven | solární vařič | [sәulә ovәn] | A cooking device which uses sunlight as its energy source. | solar cooker |
| solar air conditioning | solární klimatizace | [sәulә eә: kәndišәniŋ] | ||
| solar altitude | výška slunce nad obzorem | [səulə æltitu:d] | The angle between the line joining thc centre of the solar disc to the point of observation and the horizontal plane through the point of observation. | |
| solar pond | solární nádrž | [səulə pond] | A naturally or artificially enclosed body of water collecting solar energy. It contains a stratified salt solution; solar energy can be stored as heat in the pond, as the stratified salt solution reduces heat losses. | salt gradient solar pond |
| solar architecture | solární architektura | [səulə a:kitekčə] | A design adapted to the collection, storage and distribution of the solar energy falling on a building, by the combined use of opaque transparent walls, the building thermal mass and air circulation, based on local climatic conditions (passive system). | solar oriented architecture, solar-responsive architecture |
| solar battery | solární baterie, sluneční baterie | [səulə bætəri] | An array of solar cells usually connected in parallel and series. | |
| solar capital | sluneční kapitál | [səulə kæpitəl] | Solar energy reaching the Earth. | |
| solar captor | solární kolektor | [seulә kæptә] | A device gathering and accumulating solar radiation in order to produce heat. Nearly all collectors have a layer of glazing on top to trap heat that has passed into the collector. The collector has an absorber plate beneath the glazing which transfers hea | solar collector |
| solar radiation | sluneční záření | [səulə reidi:eišən] | ||
| solar cell | fotovoltaický článek, solární článek, fotočlánek | [sәulә sel] | An electronic solar energy conversion device that changes light into electrical energy. The cell consists of layers of semiconductor materials fabricated to form a junction and electrical contacts. | photovoltaic cell |
| solar collector | solární kolektor | [səulə kolektə] | A device for extracting the energy of the sun directly into a more usable or storable form. | |
| solar concentrator | koncentrátor | [sәulә konsintreitә] | That part of a concentrating solar collector that serves to direct the solar radiation on to the absorber. | concentrator |
| solar constant | sluneční konstanta, solární konstanta | [səulə konstənt] | The solar radiation incident on the outer edge of the Earth's atmosphere when the earth-sun distance is the average value of 150 x 106 km. The solar constant value so defined is 1367 W/m2 on a surface perpendicular to the radiation beam. | |
| solar cooker | solární vařič | [səulə kukə] | A cooking device which uses sunlight as its energy source. | solar oven |
| solar updraft tower | solární věž, solární komín | [sәulә apdrift tauә] | A power plant using a current of air heated by the sun rising through a tower to drive turbines. | |
| air-medium solar collector | vzduchový kolektor, teplovzdušný kolektor | [eә: mi:diәm sәulә kәlektә] | A solar collector designed to use air as the heat-transfer medium. | air-type solar collector, air-cooled solar collector |
| air-type solar collector | vzduchový kolektor, teplovzdušný kolektor | [eә: taip sәulәkәlektә] | A solar collector designed to use air as the heat-transfer medium. | air-cooled solar collector, air-medium solar collector |
| solar water heating | sluneční ohřev vody | [səulə wo:tə hi:tiŋ] | A system for collecting and utilising solar energy to heat or pre-heat water, primarily for domestic purposes. | domestic hot water |
| solar-respousive architecture | solární architektura | [sәulә rispausiv a:kitekčә] | A design adapted to the collection, storage and distribution of the solar energy falling on a building, by the combined use of opaque transparent walls, the building thermal mass and air circulation, based on local climatic conditions (passive system). | solar architecture |
| solar oriented architecture | solární architektura | [sәulә orijentәd a:kitekčә] | A design adapted to the collection, storage and distribution of the solar energy falling on a building, by the combined use of opaque transparent walls, the building thermal mass and air circulation, based on local climatic conditions (passive system). | solar architecture |
| solar photovoltaic cell | fotovoltaický článek, solární článek, fotočlánek | [sәulә feutәuvolteiik sel] | An electronic solar energy conversion device that changes light into electrical energy. The cell consists of layers of semiconductor materials fabricated to form a junction and electrical contacts. | photovoltaic cell |
| concentrating solar collector | koncentrující kolektor | [konsəntreitiŋ soulə kəlektə] | A solar collector that comprises reflectors, lenses or other optical devices designed to concentrate the solar energy falling within the collector aperture on to an absorber whose surface area is less than that of the collector aperture. | concentrating collector, focusing collector |
| active solar design | aktivní solární systém | [æktiv so:lə dizain] | System for deriving heat from sunlight that incorporates active devices such as blowers and pumps to move the heat from the point of collection to the area of use or of storage. | active solar system |
| passive solar design | pasivní solární systém | [pæsiv solә dizain] | A system for providing heat directly from the sunis rays. It uses large expanses of windows as collectors, natural (not forced) convection for circulation, and thermal mass for storage. | passive solar system, passive solar heating system |
| direct solar radiation | přímé záření | [dairekt sәulә reidi:eišәn] | That part of incident solar radiation originating directly from the solar disc that has not been subject to change in direction in its passage from the solar disc other than due to the effects of refraction at low elevations. | direct radiation, beam radiation |
| hybrid solar cell | hybridní solární článek, hybridní fotočlánek | [haibrid səulə sel] | A solar cell incorporating a cooling system in which the heat energy collected by the cooling medium is usefully employed. | |
| active solar system | aktivní solární systém | [æktiv səulə sistəm] | System for deriving heat from sunlight that incorporates active devices such as blowers and pumps to move the heat from the point of collection to the area of use or of storage. | active solar design |
| passive solar system | pasivní solární systém | [pæsiv səulə sistəm] | A system for providing heat directly from the sunis rays. It uses large expanses of windows as collectors, natural (not forced) convection for circulation, and thermal mass for storage. | passive solar heating system, passive solar design |
| efficiency of a solar cell | účinnost fotovoltaického článku | [ifišənsi əv ə səulə sel] | The ratio of the peak power delivered by a solar cell to the solar irradiance incident on the cell under standard AM 1 conditions at 300 K (unless otherwise specified). | |
| air-cooled solar collector | vzduchový kolektor, teplovzdušný kolektor | [eə: ku:ld səulə kəlektə] | A solar collector designed to use air as the heat-transfer medium. | air-medium solar collector, air-type solar collector |
| power saw | motorová pila | [pauə so:] | ||
| salt gradient solar pond | solární nádrž | [so:lt grædiәnt sәulә pond] | A naturally or artificially enclosed body of water collecting solar energy. It contains a stratified salt solution | solar pond |
| liquid-cooled solar collector | kapalinový kolektor | [likwid ku:ld səulə kəlektə] | A solar collector which employs a liquid as the heat transfer medium. | liquid-type collector, liquid heating collector |
| active solar heating system | aktivní systém solárního vytápění, systém aktivního solárního vytápění | [æktiv səulə hi:tiŋ sistəm] | A system that uses solar collectors to capture energy from the sun and store it as heat for space and heating water. Compare with passive solar heating system. | |
| passive solar heating system | pasivní systém solárního vytápění, pasivní solární systém | [pæsiv səulə hi:tiŋ sistəm] | A solar heating system without the use of mechanical devices. | |
| vortex power | vírová energie | [vo:teks pauә] | A form of hydro power which generates energy by placing obstacles in rivers in order to cause the formation of vortices which can then be tapped for energy. | |
| power coefficient | aerodynamická účinnost | [pauə kəuifišənt] | The ratio of the mechanical power at the shaft to the power corresponding to a given ambient wind velocity across the total swept area. | |
| emissive power | hustota toku vysílaného záření | [imisiv pauə] | The total power emitted from a surface at a specified temperature and in defined surroundings per unit area. | emittance, emission factor |
| water power | vodní energie | [wo:tə pauə] | Power that is derived from the force or energy of moving water. | hydropower |
| self-purifying power | samočistící schopnost, schopnost samočištění | [self pju:rifaiiŋ pauə] | The capacity of a natural body of water to receive a certain amount of wastewaters or toxic materials without deleterious effects and without damage to aquatic life or humans who consume the water. | self-purifying capacity, self-cleaning capacity, assimilative capacity |
| power engineering | energetika | [pauə endžəni:riŋ] | ||
| wave power | slapová energie | [weiv pauə] | The generation of electrical power from the stored kinetic energy contained within ocean waves. | |
| power line | silnoproudé vedení | [pauə lain] | ||
| atomic power | atomová energie, jaderná energie, nukleární energie | [ətomik pauə] | Energy generated by a nuclear reactor, primarily by nuclear fission and experimentally by nuclear fusion. | nuclear power |
Resort životního prostředí 