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1 ammonia synthesis gas
Англо-русский словарь нормативно-технической терминологии > ammonia synthesis gas
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2 ammonia synthesis gas
синтез-газ для производства аммиакаБольшой англо-русский и русско-английский словарь > ammonia synthesis gas
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3 ammonia synthesis gas
Англо-русский словарь технических терминов > ammonia synthesis gas
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4 ammonia synthesis gas
Англо-русский словарь нефтегазовой промышленности > ammonia synthesis gas
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5 ammonia synthesis gas
Техника: синтез-газ для производства аммиака -
6 gas
1) газ || выделять газ || газовый; газообразный2) авто проф. сокр. от gasoline топливо; бензин3) отравляющее вещество, ОВ || поражать ОВ4) наполнять газом; насыщать газом; пищ. газировать•gas in place — запасы газа в коллекторе;gas in-situ — газ в пластовых условиях;to boost gas along to its destination — повышать давление газа для доставки его к месту назначения;to sweeten gas — удалять из газа соединения серы;to take off casing-head gas — отбирать нефтяной газ на устье скважины-
absorbent gas
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acid gas
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active gas
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actuation gas
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aerogen gas
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aggressive gas
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air gas
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air-free gas
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alky gas
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all-weather liquefied petroleum gas
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ammonia gas
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ammonia synthesis gas
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anaerobic fuel gas
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anode gas
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artificial gas
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associated gas
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associated-dissolved gas
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ballast gas
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blast-furnace gas
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blau gas
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blue gas
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bottled gas
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bradenhead gas
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burning gases
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burnt gas
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butane-enriched water gas
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butane-propane gas
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by-product gas
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calibrating gas
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cap gas
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carbureted gas
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carbureted hydrogen gas
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carrier gas
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casinghead gas
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cathode gas
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char gas
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city gas
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coal gas
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coke oven gas
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coke-cooling gas
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combination gas
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combustible gas
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combustion gas
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compressed gas
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condensed gas
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consumer gas
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contaminant gas
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conventional gas
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converted gas
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converter waste gas
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coolant gas
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corrosive gas
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cryogenic gas
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degenerate gas
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desuperheat gas
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dielectric gas
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diluent gas
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diluted gas
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dissolved gas
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diving gas
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domestic gas
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doping gas
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dry gas
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drying gas
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dump gas
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dust-laden gas
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effluent gas
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electrode gas
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electronic gas
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electron gas
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electronegative gas
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elementary gas
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end gas
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enriched gas
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entrained gas
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exhaust gas
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explosion gas
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extremely dry gas
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fat gas
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filtered flue gas
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fire gas
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fission gas
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fixed gas
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flare gas
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flash gas
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flue gas
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fluidizing gas
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fluorocarbon gas
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foul gas
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free gas
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fuel gas
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fume-laden gas
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furnace gas
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gas-lift gas
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glass-forming gas
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green gases
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head-space gas
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heating gas
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helium-bearing natural gas
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high btu gas
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high gas
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high-altitude LP gas
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high-purity gas
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household fuel gas
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humid gas
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hydrocarbon gases
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ideal gas
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illuminating gas
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incoming gas
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indifferent gas
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industrial gas
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inert gas
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inflammable gas
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injected gas
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inleaking gas
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intergalactic gas
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interplanetary gas
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interstellar gas
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ionized gas
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kerosine gas
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kiln gases
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landfill gas
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lean gas
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lift gas
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lighting gas
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liquefied natural gas
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live gas
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LN gas
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low-boiling gas
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low-energy coal-derived gas
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low-thermal-value fuel gas
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LP gas
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makeup gas
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manufactured gas
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manure gas
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marsh gas
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medium-energy coal-derived gas
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mine gas
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mixed gas
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mustard gas
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naphtha gas
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native gas
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natural gas
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noble gas
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nonassociated natural gas
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noncondensable gas
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nonhydrocarbon gases
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nonstripped petroleum gas
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noxious gas
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occluded gas
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off gas
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oil gas
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oil samp gas
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oil-water gas
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oil-well gas
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olefiant gas
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onboard-stored gas
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paraffin gas
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peat gas
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perfect gas
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petroleum gas
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pipeline gas
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pollutant gases
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poor gas
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power gas
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process gas
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processed gas
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producer gas
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propulsive gas
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protective gas
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purge gas
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radiating gas
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radioactive gas
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radioactive noble gases
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rare gas
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reaction gas
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reactionless gas
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reactivation gas
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reactive gas
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receiver gases
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recoverable gas
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recycled gas
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recycle gas
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reference gas
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refinery gas
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refrigerant gas
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regeneration gas
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relief gases
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residual gas
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residue gas
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rich gas
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rich petroleum gas
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roaster gas
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roast gas
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rock gas
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sales gas
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separator gas
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sewer gas
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shocked gas
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sludge gas
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solute gas
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solution gas
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sour gas
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span gas
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spent gas
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stabilizer gas
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stack gas
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steam run gas
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stillage gas
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still gas
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stripped gas
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suction gas
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sweet gas
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synthesis gas
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synthetic natural gas
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synthetic gas
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tail gas
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tank gas
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tar gas
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top gas
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town gas
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toxic gas
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trace gases
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trapped gas
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trap gas
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treated gas
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trip gas
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unassociated gas
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underground storage gas
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unstripped gas
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vapor gases
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washed gas
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waste gas
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water gas
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wet gas
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working gas
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zero gas -
7 gas
1. газ, газообразное вещество || выделять газ; наполнять газом, насыщать газом2. горючее; газолин; бензин || заправлять горючим— acid gas— dry gas— end gas— exit gas— fat gas— flue gas— free gas— fuel gas— lean gas— net gas— oil gas— rich gas— rock gas— sour gas— town gas— trip gas— wet gas
* * *
high altitude liquid petroleum gas — сжиженный нефтяной газ с повышенным содержанием бутана (для применения в условиях пониженного атмосферного давления)
— dry gas— foul gas— lean gas— lift gas— oil gas— rich gas— rock gas— sour gas— tank gas— wet gas
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1. газ2. горючее, бензин
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* * *
1) газ, газообразное вещество || выделять газ; наполнять газом, насыщать газом2) горючее; газолин; бензин || заправлять горючим•gas in place — запасы газа в коллекторе;
gas in reservoir — пластовой газ;
gas in-situ — газ в пластовых условиях;
gas in solution — растворённый газ;
no gas to surface — газ на поверхность не поступает;
gas originally in place — первоначальные запасы газа в коллекторе;
to boost gas along to its destination — повышать давление газа для доставки его к месту назначения;
to make the gas — выделять газ;
to sweeten gas — удалять из газа соединения серы;
- gas of radiation-chemical originto take-off casing-head gas — отбирать нефтяной газ на устье скважины;
- gas of stratal water
- absorbed gas
- accompanying gas
- acid gas
- active gas
- actual gas
- adsorbed gas
- aerogen gas
- air gas
- air-free gas
- air-producer gas
- alky gas
- all-weather liquefied petroleum gas
- ammonia synthesis gas
- annular gas
- artificial gas
- associated gas
- associated dissolved gas
- associated petroleum gas
- aviation gas
- background gas
- biochemical natural gas
- blanket gas
- blowdown gas
- blue gas
- bottled gas
- Braden head gas
- burned gas
- burning gas
- butane-enriched water gas
- butane-propane gas
- by-product gas
- cap gas
- carbon-dioxide gas
- carbureted gas
- carbureted hydrogen gas
- carbureted water gas
- carrier gas
- casing-head gas
- city gas
- coercible gas
- coke oven gas
- combination gas
- combustible gas
- combustion gas
- commercial gas
- commercial rock gas
- compressed gas
- compressed natural gas
- condensed gas
- condensed natural gas
- conditioned gas
- consumer gas
- conventional gas
- converted gas
- corrosive gas
- crude gas
- cumulative gas injected
- cushion gas
- cylinder gas
- dehydrated petroleum gas
- diluted gas
- dispersed gas
- dissolved gas
- distillation gas
- domestic gas
- drive gas
- dry gas
- dry petroleum gas
- dump gas
- end gas
- enriched gas
- entrained gas
- escaping gas
- exhaust gas
- exit gas
- expansion gas
- extraneous gas
- extremely dry gas
- fat gas
- filtered flue gas
- fire gas
- fixed gas
- flammable gas
- flare gas
- flash gas
- flue gas
- fluorocarbon gas
- flush gas
- formation gas
- formation water gas
- foul gas
- free gas
- fuel gas
- full-stream gas
- fume-laden gas
- furnace gas
- gaslift gas
- gas-well gas
- green gas
- heating gas
- helium-bearing natural gas
- high gas
- high-altitude liquid petroleum gas
- high-BTU gas
- high-calorific gas
- high-line gas
- highly corrosive gas
- high-pressure gas
- high-purity gas
- household fuel gas
- humid gas
- hydrocarbon gas
- ideal gas
- illuminating gas
- immobile gas
- imperfect gas
- imported gas
- inactive gas
- included gas
- incoming gas
- indifferent gas
- industrial gas
- inert gas
- inflammable gas
- initial gas in reservoir
- injected gas
- in-place petroleum gas
- ionized gas
- kerosene gas
- kiln gas
- lean gas
- lean petroleum gas
- liberated gas
- lift gas
- lighting gas
- liquefied gas
- liquefied hydrocarbon gas
- liquefied natural gas
- liquefied petroleum gas
- liquid gas
- liquid natural gas
- liquid petroleum gas
- live gas
- low-boiling gas
- low-calorific gas
- low-pressure petroleum gas
- low-thermal-value fuel gas
- makeup gas
- manufactured gas
- manure gas
- marsh gas
- medium-energy coal-derived gas
- metamorphic natural gas
- methane-rich gas
- mixed gas
- mud gas
- naphtha gas
- native gas
- natural gas
- net gas
- noble gas
- nonassociated gas
- nonassociated natural gas
- noncondensable gas
- noncorrosive gas
- nonhydrocarbon gas
- nonpurified gas
- nonrecoverable gas
- nonstripped petroleum gas
- noxious gas
- occluded gas
- off gas
- oil gas
- oil-dissolved gas
- oil-water gas
- oil-well gas
- olefiant gas
- onboard-stored gas
- oxyhydrogen gas
- paraffin gas
- peat gas
- perfect gas
- petroleum gas
- pipeline gas
- poor gas
- power gas
- processed gas
- produced gas
- producer gas
- product gas
- purchased gas
- purge gas
- radiogenic gas
- purifield gas
- quenching gas
- radioactive gas
- radon gas
- raw natural gas
- reactivation gas
- receiver gas
- recirculated gas
- recoverable gas
- recoverable petroleum gas
- refinery gas
- regeneration gas
- residual gas
- residue gas
- retained gas
- rich gas
- rich petroleum gas
- rock gas
- sales gas
- sedimentary natural gas
- separator gas
- shale gas
- shallow gas
- shocked gas
- sludge gas
- solute gas
- solution gas
- sour gas
- sour petroleum gas
- spent gas
- stabilizer gas
- stack gas
- stillage gas
- stripped gas
- stripped petroleum gas
- stripper gas
- substitute natural gas
- sulfur dioxide gas
- sulfurous gas
- sweet gas
- synthetic gas
- tail gas
- tank gas
- town gas
- toxic gas
- transborder gas
- transcontinental gas
- transported gas
- trapped gas
- treated gas
- trip gas
- unassociated gas
- underground storage gas
- undissolved gas
- unstripped gas
- vadose gas
- washed gas
- waste gas
- water gas
- water-dissolved gas
- well head gas
- wet gas
- wet field gas
- wet petroleum gas
- zero-hydrogen-index gas* * * -
8 gas
1) газ
2) бензораздаточный
3) газировать
4) газовать
5) газовый
6) газокислородный
7) газолиновый
8) бензин
9) газообразный
– adsorbed gas
– air-blast gas
– ammonia gas
– ammonia gas maser
– approved gas detector
– artificial gas
– balloon gas bag
– blast gas
– blast-furnace gas
– bottle gas
– buffer gas
– carburetted gas
– carburizing gas
– carrier gas
– casing-head gas
– chemical gas generator
– chlorine gas
– clean gas
– coal gas
– coke-oven gas
– compressed gas
– condensed gas deposit
– converter gas
– corrosive gas
– cupola gas
– cutting gas
– cyclone gas cleaning
– degenerate gas
– dehydration of gas
– densimetric gas analyzer
– diatomic gas molecule
– dilute gas
– discharge gas
– disorienting gas
– distribution of gas
– downtake gas duct
– driver gas
– dry gas cleaning
– drying gas
– dust-laden gas
– electron gas
– electronegative gas
– entrapped gas
– evolve gas
– evolved gas
– exhaust gas
– explosive gas
– flare gas
– flue gas
– flue gas analyzer
– flue gas path
– fluidized-bed gas producer
– fluidizing gas
– free gas
– free-piston gas generator
– froth gas cleaning
– fuel gas
– fume-laden gas
– gas amplification
– gas amplification factor
– gas anchor
– gas balance
– gas barrier
– gas bleeder
– gas blower
– gas calorimeter
– gas carburizing
– gas cell
– gas cleaning
– gas cleaning by filtration
– gas coal
– gas coke
– gas conduit
– gas constant
– gas content
– gas cooker
– gas cooler
– gas corrosion
– gas current
– gas cutting
– gas cylinder
– gas discharge
– gas discharge laser
– gas dynamics
– gas emission source
– gas equipment
– gas factor
– gas field
– gas flowmeter
– gas flue
– gas fuel
– gas hardener
– gas heated evaporator
– gas heating
– gas holder
– gas hole
– gas industry
– gas is adsorbed by charcoal
– gas laser
– gas law
– gas leak to atmosphere
– gas line
– gas liquor
– gas logging
– gas main
– gas meter
– gas microanalyser
– gas misalignment
– gas mixer
– gas nest
– gas oil
– gas outburst
– gas outlet
– gas phase
– gas pickling
– gas pipeline
– gas plasma display
– gas pocket
– gas pressure regulator
– gas production
– gas pump
– gas purifier
– gas purifying mass
– gas rock
– gas saturation
– gas scrubber
– gas scrubbing
– gas seal
– gas sintering
– gas space
– gas spanner
– gas supply
– gas survey
– gas synthesis
– gas tank
– gas target
– gas tongs
– gas tube
– gas turbine
– gas turbine jet engine
– gas vulcanization
– gas washer
– gas welding
– gas works
– gas yield factor
– hearth gas
– high-pressure gas burner
– high-pressure gas container
– hydraulic gas dynamics
– hypersonic gas dynamics
– ideal gas
– ideal gas law
– illuminating gas
– imperfect gas
– indoor gas line
– inert gas arc welding
– inert gas introduction
– insulating gas
– interferometric gas analyzer
– introduction of gas in metal
– kiln gas
– l.p. gas
– laughing gas
– lean gas
– lighter-than-air gas
– liquefied gas
– liquify gas
– local gas line
– magnetic gas analyzer
– magnetoionic gas
– magnetomechanical gas analyzer
– marsh gas
– mine gas
– mixed gas
– monatomic gas
– natural gas
– natural-pressure gas lift
– noble gas
– noncorrosive gas
– nondegenerate gas
– nondisorienting gas
– noxious gas
– occluded gas
– oil gas
– oil-well gas
– optical-acoustic gas analyzer
– oxygen gas
– oxygen-converter gas
– peat gas
– permanent gas
– phreatic gas
– plasma-forming gas
– poison gas
– poor gas
– power gas
– pressure gas welding
– process gas
– producer gas
– pumped gas
– rare gas
– rarefied gas
– raw gas
– raw natural gas
– real gas
– recycle gas
– reducing gas
– relaxing gas
– residual gas
– residue gas
– rich gas
– roaster gas
– RX gas
– scrub gas
– secondary gas
– separation of gas mixtures
– sewage gas
– sewer gas
– shielding gas
– solid gas
– solid-propellant gas generator
– stagnated gas
– steam and gas
– sudden gas outburst
– swamp gas
– tail gas
– thermochemical gas analyzer
– thermomagnetic gas analyzer
– to gas
– top gas pressure
– town gas
– toxic gas
– triatomic gas
– tromp gas
– tropospheric gas
– tuyere gas
– two-stage gas turbine
– valve gas
– volumetric gas analyzer
– waste gas
– waste gas flue
– waste gas heating
– water gas
– wet gas
aerodynamics of rarefied gas — аэродинамика разреженных газов
gas and steam turbine installation — <engin.> установка турбинная газо-паровая
gas plasma display element — <comput.> трубка газонаполненная
liquid petroleum gas — <energ.> газ жидкий
nondisorienting buffer gas — неразориентирующий буферный газ
Petroleum and Gas Extracting Administration — <energ.> Нефтегазодобывающее управление
radioactive noble gas — <phys.> газ благородный радиоактивный
suspension of matter in gas — <energ.> газовзвесь, газовзвеси
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9 синтез-газ для производства аммиака
Русско-английский словарь нормативно-технической терминологии > синтез-газ для производства аммиака
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10 синтез-газ для производства аммиака
Engineering: ammonia synthesis gasУниверсальный русско-английский словарь > синтез-газ для производства аммиака
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11 Haber, Fritz
SUBJECT AREA: Chemical technology[br]b. 9 December 1868 Breslau, Germany (now Wroclaw, Poland)d. 29 January 1934 Basel, Switzerland[br]German chemist, inventor of the process for the synthesis of ammonia.[br]Haber's father was a manufacturer of dyestuffs, so he studied organic chemistry at Berlin and Heidelberg universities to equip him to enter his father's firm. But his interest turned to physical chemistry and remained there throughout his life. He became Assistant at the Technische Hochschule in Karlsruhe in 1894; his first work there was on pyrolysis and electrochemistry, and he published his Grundrisse der technischen Electrochemie in 1898. Haber became famous for thorough and illuminating theoretical studies in areas of growing practical importance. He rose through the academic ranks and was appointed a full professor in 1906. In 1912 he was also appointed Director of the Institute of Physical Chemistry and Electrochemistry at Dahlem, outside Berlin.Early in the twentieth century Haber invented a process for the synthesis of ammonia. The English chemist and physicist Sir William Crookes (1832–1919) had warned of the danger of mass hunger because the deposits of Chilean nitrate were becoming exhausted and nitrogenous fertilizers would not suffice for the world's growing population. A solution lay in the use of the nitrogen in the air, and the efforts of chemists centred on ways of converting it to usable nitrate. Haber was aware of contemporary work on the fixation of nitrogen by the cyanamide and arc processes, but in 1904 he turned to the study of ammonia formation from its elements, nitrogen and hydrogen. During 1907–9 Haber found that the yield of ammonia reached an industrially viable level if the reaction took place under a pressure of 150–200 atmospheres and a temperature of 600°C (1,112° F) in the presence of a suitable catalyst—first osmium, later uranium. He devised an apparatus in which a mixture of the gases was pumped through a converter, in which the ammonia formed was withdrawn while the unchanged gases were recirculated. By 1913, Haber's collaborator, Carl Bosch had succeeded in raising this laboratory process to the industrial scale. It was the first successful high-pressure industrial chemical process, and solved the nitrogen problem. The outbreak of the First World War directed the work of the institute in Dahlem to military purposes, and Haber was placed in charge of chemical warfare. In this capacity, he developed poisonous gases as well as the means of defence against them, such as gas masks. The synthetic-ammonia process was diverted to produce nitric acid for explosives. The great benefits and achievement of the Haber-Bosch process were recognized by the award in 1919 of the Nobel Prize in Chemistry, but on account of Haber's association with chemical warfare, British, French and American scientists denounced the award; this only added to the sense of bitterness he already felt at his country's defeat in the war. He concentrated on the theoretical studies for which he was renowned, in particular on pyrolysis and autoxidation, and both the Karlsruhe and the Dahlem laboratories became international centres for discussion and research in physical chemistry.With the Nazi takeover in 1933, Haber found that, as a Jew, he was relegated to second-class status. He did not see why he should appoint staff on account of their grandmothers instead of their ability, so he resigned his posts and went into exile. For some months he accepted hospitality in Cambridge, but he was on his way to a new post in what is now Israel when he died suddenly in Basel, Switzerland.[br]Bibliography1898, Grundrisse der technischen Electrochemie.1927, Aus Leben und Beruf.Further ReadingJ.E.Coates, 1939, "The Haber Memorial Lecture", Journal of the Chemical Society: 1,642–72.M.Goran, 1967, The Story of Fritz Haber, Norman, OK: University of Oklahoma Press (includes a complete list of Haber's works).LRD -
12 Bosch, Carl
SUBJECT AREA: Chemical technology[br]b. 27 August 1874 Cologne, Germanyd. 26 April 1940 Heidelberg, Germany[br]German industrial chemist who developed the industrial synthesis of ammonia.[br]Bosch spent a year as a metalworker before studying chemistry at Leipzig University, obtaining his doctorate in 1898. The following year, he entered Badische Soda-, Anilin Fabrik (BASF), the leading German manufacturer of dyestuflfs. Between 1902 and 1907 he spent much time investigating processes for nitrogen fixation. In 1908 Fritz Haber told BASF of his laboratory-scale synthesis of ammonia from its constituent elements, and in the following year Bosch was assigned to developing it to the industrial scale. Leading a large team of chemists and engineers, Bosch designed the massive pressure converter and other features of the process and was the first to use the water gas shift reaction to produce the large quantities of hydrogen that were required. By 1913 Bosch had completed the largest chemical engineering plant at BASF's works at Oppau, and soon it was producing 36,000 tons of ammonium sulphate a year. Bosch enlarged the Oppau plant and went on to construct a larger plant at Leuna.In 1914 Bosch was appointed a Director of BASF. At the end of the First World War he became Technical Adviser to the German delegation at the peace conference. During the 1920s BASF returned to its position of pre-eminence in high-pressure technology, thanks largely to Bosch's leadership. Although increasingly absorbed in administrative matters, Bosch was able to support the synthesis of methane and the hydrogenation of coal tar and lignite to make petrol. In 1925 BASF merged with other companies to form the giant IG Farbenindustrie AG, of which Bosch became Chairman of the Managing Board. His achievements received international recognition in 1931 when he was awarded, with F. Bergius, the Nobel Prize in Chemistry for high-pressure synthesis.[br]Bibliography1932, Über die Entwicklung der chemischen Hochdruckindustrie bei der Aufbau der neuen Ammoniakindustrie.Further ReadingK.Holdermann, 1953, Carl Bosch, Leben und Werk.See also biographical memoir in Chemische Berichte 190 (1957), pp. xix–xxxix.LRD
См. также в других словарях:
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ammonia — /euh mohn yeuh, euh moh nee euh/, n. Chem. 1. a colorless, pungent, suffocating, highly water soluble, gaseous compound, NH3, usually produced by the direct combination of nitrogen and hydrogen gases: used chiefly for refrigeration and in the… … Universalium
Ammonia production — Because of its many uses, ammonia is one of the most highly produced inorganic chemicals. There are literally dozens of large scale ammonia production plants worldwide. The worldwide production in 2004 was 109,000,000 metric tons. [… … Wikipedia
Ammonia borane — Chembox new Name = Ammonia borane ImageFile = Ammonia borane 3D balls.png ImageName = IUPACName = Ammonia borane OtherNames = Borazane Section1 = Chembox Identifiers SMILES = [NH3+] [BH3 ] CASNo = 13774 81 7 RTECS = none Section2 = Chembox… … Wikipedia
Coal gas — Towngas redirects here. For the company in Hong Kong trading as Towngas , see The Hong Kong and China Gas Company Limited. See also: Coal gasification and Coal seam gas Coal gas (also town gas and illumination gas) is a flammable gaseous… … Wikipedia
Chichibabin pyridine synthesis — Not to be confused with Chichibabin reaction. The Chichibabin pyridine synthesis (pronounced (chē ) chē bā bēn) is a method for synthesizing pyridine rings. In its general form, the reaction can can be described as a condensation reaction of… … Wikipedia
Oligonucleotide synthesis — is the chemical synthesis of relatively short fragments of nucleic acids with defined chemical structure (sequence). The technique is extremely useful in current laboratory practice because it provides a rapid and inexpensive access to custom… … Wikipedia