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1 уголь для газогенераторной установки
уголь для газогенераторной установки
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[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > уголь для газогенераторной установки
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2 добытый уголь
1) Geology: produced coal2) Mining: landings (в Южном Уэльсе) -
3 воздействие производства энергии на окружающую среду
воздействие производства энергии на окружающую среду
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > воздействие производства энергии на окружающую среду
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4 производство цемента
производство цемента
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
cement manufacture
Cement is produced by heating a mixture of clay or shale plus chalk or lime in a rotary kiln up to 250 m long per 8 m diameter rotating at 1 rpm. The process can be wet, semi-dry or dry and the fuel can be pulverized coal, oil or gas. As the coal ash is similar in composition to the clay or shale, it can stay in the cement clinker. As one of the kiln operator's major costs is fuel and even a modest sized kiln can consume 8-10 tons of coal per hour, the cement kiln could, therefore, solve a disposal problem and also benefit the cement manufacturer by reducing fuel costs. (Source: PORT)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > производство цемента
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5 воздействие производства энергии на окружающую среду
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > воздействие производства энергии на окружающую среду
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6 производство цемента
производство цемента
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
cement manufacture
Cement is produced by heating a mixture of clay or shale plus chalk or lime in a rotary kiln up to 250 m long per 8 m diameter rotating at 1 rpm. The process can be wet, semi-dry or dry and the fuel can be pulverized coal, oil or gas. As the coal ash is similar in composition to the clay or shale, it can stay in the cement clinker. As one of the kiln operator's major costs is fuel and even a modest sized kiln can consume 8-10 tons of coal per hour, the cement kiln could, therefore, solve a disposal problem and also benefit the cement manufacturer by reducing fuel costs. (Source: PORT)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > производство цемента
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7 воздействие производства энергии на окружающую среду
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > воздействие производства энергии на окружающую среду
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8 производство цемента
производство цемента
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
cement manufacture
Cement is produced by heating a mixture of clay or shale plus chalk or lime in a rotary kiln up to 250 m long per 8 m diameter rotating at 1 rpm. The process can be wet, semi-dry or dry and the fuel can be pulverized coal, oil or gas. As the coal ash is similar in composition to the clay or shale, it can stay in the cement clinker. As one of the kiln operator's major costs is fuel and even a modest sized kiln can consume 8-10 tons of coal per hour, the cement kiln could, therefore, solve a disposal problem and also benefit the cement manufacturer by reducing fuel costs. (Source: PORT)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > производство цемента
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9 воздействовать паром на уголь
Русско-английский научно-технический словарь переводчика > воздействовать паром на уголь
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10 воздействовать паром на уголь
Русско-английский научно-технический словарь переводчика > воздействовать паром на уголь
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11 получаемый в результате
•The amount of OH— generated (or produced) in the hydrolysis...
•The evaluation of coal for particular uses is based upon the information provided by the ultimate and proximate analyses.
•The heat available from this reaction...
Русско-английский научно-технический словарь переводчика > получаемый в результате
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12 газификации угольных остатков полученных после экстракции
Универсальный русско-английский словарь > газификации угольных остатков полученных после экстракции
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13 газ
fluid, gas* * *газ м.1. ( агрегатное состояние вещества) gasвнеза́пное выделе́ние га́за ( в шахте) — (violent) gas outburstгаз выделя́ется из раство́ра — a dissolved gas flashes out of solutionвыделя́ть газ — evolve [liberate, give up] gasвыпуска́ть ли́шний газ ( в атмосферу) — allow surplus gas to escapeнапо́лненный га́зом — gas-filledочища́ть газ — ( от механических примесей) clean a gas; ( от нежелательных соединений) purify a gasохлажда́емый га́зом — gas-cooledпромыва́ть газ — scrub [wash] a gasрабо́тать на га́зе (о двигателе и т. п.) — gas-fireразбавля́ть газ — dilute a gasсжига́ть газ в фа́келе (напр. на промысле) — flare a gasсжижа́ть газ — liquefy a gasтрави́ть ( выпускать) [m2]газ из аэроста́та — valve the gas2. авто:дава́ть по́лный газ — give full throttleрабо́тать на по́лном газу́ — operate at full throttleсбавля́ть газ — throttle downсбра́сывать газ — release the acceleratorагресси́вный газ — corrosive [aggressive] gasадсорби́рованный газ — adsorbed gasбалло́нный газ — bottled [cylinder] gasбе́дный газ — lean gasбезокисли́тельный газ — noncorrosive gasбиологи́ческий газ — sewage [sludge] gasбиохими́ческий газ — biochemical gasблагоро́дный газ — noble [inert] gasбога́тый газ — rich gasболо́тный газ — marsh gasбу́ферный газ — buffer gasбу́ферный, неразориенти́рующий газ — nondisorienting buffer gasбу́ферный, разориенти́рующий газ — disorienting buffer gasвагра́ночный газ — cupola gasвеселя́щий газ — laughing gas, nitrous oxideга́зы в запле́чиках ( доменной печи) — bosh gasesвзрывоопа́сный газ — explosive gasвла́жный газ — wet gasводяно́й газ — water gasвозбуждё́нный газ — pumped gasвозду́шный газ ( полученный на воздушном дутье) — air-blast gasвосстанови́тельный газ — reducing gasвре́дный газ — noxious gasгаз втори́чной очи́стки — secondary gasвыделя́ющийся газ — evolved gasвы́рожденный газ — degenerate gasвысококалори́йный газ — rich [high calorific] gasвыхлопно́й газ — exhaust gasгенера́торный газ — produced gasгенера́торный, эндотерми́ческий газ — RX [generator] gasгорново́й газ ( доменной печи) — hearth gasгородско́й газ — town gasгорю́чий газ — ( используемый в качестве топлива) fuel gas; ( обладающий способностью к горению) combustible gasгрему́чий газ — fire-dampгаз гру́бой очи́стки — primary cleaned gasгря́зный газ — ( неочищенный) fume-laden gas; ( колошниковый) crude gasгаз для коммуна́льно-бытовы́х нужд — gas for public-utility use(s)до́менный газ — blast-furnace [top] gasдо́менный, чи́стый газ — clean blast-furnace [top] gasдутьево́й газ — blast gasдымово́й газ — flue [stack] gasзапылё́нный газ — dust-laden gas; метал. ash-laden gasзаторможё́нный газ — stagnated gasзащи́тный газ — shielding gasв среде́ защи́тного га́за — in an atmosphere of shielding gasидеа́льный газ — ideal [perfect] gasине́ртный газ — inert [noble] gasиску́сственный газ — artificial [manufactured] gasкаменноу́гольный газ — coal gasканализацио́нный газ — sewer gasкарбюри́рованный газ — carburetted gasкислоро́дно-конве́ртерный газ — oxygen-converter gasко́ксовый газ — coke-oven gasко́ксовый, прямо́й газ — volatile matter (of the coking process)колошнико́вый газ — blast-furnace [top] gasконве́ртерный газ — converter (waste) gasкоте́льный газ — boiler flue gasгаз ле́гче во́здуха — lighter-than-air [lifting] gasмагнитоио́нный газ — magnetoionic gasневы́рожденный газ — nondegenerate gasнеконденси́рующийся газ — permanent gasнеочи́щенный газ — raw [crude] gasгаз нефтеперерабо́тки — (oil-)refinery gasнефтяно́й газ — oil [petroleum] gasнефтяно́й, попу́тный газ — casing-head gasнизкокалори́йный газ — poor [low calorific] gasо́бжиговый газ — roaster gasоборо́тный газ — recycle gasодноа́томный газ — monatomic gasозолё́нный газ — ash-laden gasокклюди́рованный газ — occluded gasоста́точный газ — residual gasотрабо́тавший газ — exhaust [burnt] gasотходя́щий газ — waste [flue, exit, effluent] gas, off-gasпечно́й газ — kiln gasпло́тный газ — solid gasполуводяно́й газ — Dowson [semi-water] gasприро́дный газ — natural gasпсевдоожижа́ющий газ — fluidizing gasрабо́чий газ — working fluid; ( в плазменном напылении) plasma-forming gasразрежё́нный газ — rarefied gasреа́льный газ — real [imperfect] gasре́дкий газ — rare gasре́жущий газ — cutting gasрелакси́рующий газ — relaxing gasрудни́чный газ — mine gasрудни́чный газ по́сле взры́ва — afterdampсвети́льный газ — illuminating [lighting] gasсвобо́дный газ — free gasгаз с возбуждё́нными колеба́тельными степеня́ми свобо́ды — vibrationally excited gasсерни́стый газ — (gaseous) sulphur dioxideсе́рный газ — (gaseous) sulphur trioxideсжа́тый газ — compressed gasсжи́женный газ — liquefied [condensed] gasсилово́й газ — power gasсме́шанный газ — mixed gasгаз, содержа́щий дым — fume-laden gasсухо́й газ — residue gasсуши́льный газ — drying gasтехнологи́ческий газ — process gasтокси́чный газ — toxic gasгаз то́нкой очи́стки — finally cleaned gasто́пливный газ — fuel gasто́почный газ — flue gasторфяно́й газ — peat gasто́щий газ — lean gasтранспорти́рующий газ — carrier gasтрёха́томный газ — triatomic gasтропосфе́рный газ — tropospheric gasуга́рный газ — carbon monoxide; горн. whitedampуглеки́слый газ — carbon dioxideуду́шливый газ — chokedampфреати́ческий газ — phreatic gasфу́рменный газ — tuyere gasхвостово́й газ — tail gasэлектро́нный газ — electron gasэлектроотрица́тельный газ — electronegative gasэнергети́ческий газ — power gasгаз ядови́тый газ — poison gas -
14 газ
1. м. gasочищать газ — clean a gas; purify a gas
2. м. автогорючий газ — fuel gas; combustible gas
грязный газ — fume-laden gas; crude gas
запылённый газ — dust-laden gas; ash-laden gas
рабочий газ — working fluid; plasma-forming gas
угарный газ — carbon monoxide; whitedamp
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15 воздействие промышленности на окружающую среду
воздействие промышленности на окружающую среду
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of industry
The effects on the environment connected with industrial activities are mainly related to the production of industrial wastes that can be divided into various types: solid waste, such as dust particles or slag from coal; liquid wastes from various processes, including radioactive coolants from power stations; and gas wastes, largely produced by the chemical industry. (Source: RRDA)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > воздействие промышленности на окружающую среду
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16 глубоководная разработка полезных ископаемых
глубоководная разработка полезных ископаемых
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deep sea mining
The most valuable of the marine mineral resources is petroleum. About 15% of the world's oil is produced offshore, and extraction capabilities are advancing. One of the largest environmental impacts of deep sea mining are discharged sediment plumes which disperse with ocean currents and thus may negatively influence the marine ecosystem. Coal deposits known as extensions of land deposits, are mined under the sea floor in Japan and England. (Source: PARCOR / ERIB)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > глубоководная разработка полезных ископаемых
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17 воздействие промышленности на окружающую среду
воздействие промышленности на окружающую среду
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of industry
The effects on the environment connected with industrial activities are mainly related to the production of industrial wastes that can be divided into various types: solid waste, such as dust particles or slag from coal; liquid wastes from various processes, including radioactive coolants from power stations; and gas wastes, largely produced by the chemical industry. (Source: RRDA)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > воздействие промышленности на окружающую среду
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18 глубоководная разработка полезных ископаемых
глубоководная разработка полезных ископаемых
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deep sea mining
The most valuable of the marine mineral resources is petroleum. About 15% of the world's oil is produced offshore, and extraction capabilities are advancing. One of the largest environmental impacts of deep sea mining are discharged sediment plumes which disperse with ocean currents and thus may negatively influence the marine ecosystem. Coal deposits known as extensions of land deposits, are mined under the sea floor in Japan and England. (Source: PARCOR / ERIB)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > глубоководная разработка полезных ископаемых
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19 воздействие промышленности на окружающую среду
воздействие промышленности на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of industry
The effects on the environment connected with industrial activities are mainly related to the production of industrial wastes that can be divided into various types: solid waste, such as dust particles or slag from coal; liquid wastes from various processes, including radioactive coolants from power stations; and gas wastes, largely produced by the chemical industry. (Source: RRDA)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > воздействие промышленности на окружающую среду
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20 глубоководная разработка полезных ископаемых
глубоководная разработка полезных ископаемых
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
deep sea mining
The most valuable of the marine mineral resources is petroleum. About 15% of the world's oil is produced offshore, and extraction capabilities are advancing. One of the largest environmental impacts of deep sea mining are discharged sediment plumes which disperse with ocean currents and thus may negatively influence the marine ecosystem. Coal deposits known as extensions of land deposits, are mined under the sea floor in Japan and England. (Source: PARCOR / ERIB)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > глубоководная разработка полезных ископаемых
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