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81 натронная целлюлоза
натронная целлюлоза
Ндп. содовая целлюлоза
Целлюлоза, получаемая натронной варкой.
[ ГОСТ 23646-79]Недопустимые, нерекомендуемые
Тематики
Обобщающие термины
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DE
FR
Русско-немецкий словарь нормативно-технической терминологии > натронная целлюлоза
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82 pâte nitrosodique
азотнокислая целлюлоза
Целлюлоза, получаемая азотнокислотной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > pâte nitrosodique
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83 pâte oxidée en milleu alcalin
кислородно-щелочная целлюлоза
Целлюлоза, получаемая кислородно-щелочной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > pâte oxidée en milleu alcalin
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84 pâte la soude
натронная целлюлоза
Ндп. содовая целлюлоза
Целлюлоза, получаемая натронной варкой.
[ ГОСТ 23646-79]Недопустимые, нерекомендуемые
Тематики
Обобщающие термины
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > pâte la soude
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85 Salpetersäuerzellstoff
азотнокислая целлюлоза
Целлюлоза, получаемая азотнокислотной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > Salpetersäuerzellstoff
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86 Sauerstoff-Natronzellstoff
кислородно-щелочная целлюлоза
Целлюлоза, получаемая кислородно-щелочной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > Sauerstoff-Natronzellstoff
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87 Natronzellstoff
натронная целлюлоза
Ндп. содовая целлюлоза
Целлюлоза, получаемая натронной варкой.
[ ГОСТ 23646-79]Недопустимые, нерекомендуемые
Тематики
Обобщающие термины
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > Natronzellstoff
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88 азотнокислая целлюлоза
азотнокислая целлюлоза
Целлюлоза, получаемая азотнокислотной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > азотнокислая целлюлоза
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89 кислородно-щелочная целлюлоза
кислородно-щелочная целлюлоза
Целлюлоза, получаемая кислородно-щелочной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > кислородно-щелочная целлюлоза
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90 натронная целлюлоза
натронная целлюлоза
Ндп. содовая целлюлоза
Целлюлоза, получаемая натронной варкой.
[ ГОСТ 23646-79]Недопустимые, нерекомендуемые
Тематики
Обобщающие термины
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > натронная целлюлоза
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91 натронная полуцеллюлоза
натронная полуцеллюлоза
Ндп. содовая полуцеллюлоза
холодно-щелочная полуцеллюлоза
Полуцеллюлоза, получаемая натронной варкой.
[ ГОСТ 23646-79]Недопустимые, нерекомендуемые
Тематики
Обобщающие термины
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > натронная полуцеллюлоза
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92 хлорно-щелочная целлюлоза
хлорно-щелочная целлюлоза
Целлюлоза, получаемая хлорно-щелочной варкой.
[ ГОСТ 23646-79]Тематики
Обобщающие термины
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > хлорно-щелочная целлюлоза
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93 натронная полуцеллюлоза
Русско-английский словарь по деревообрабатывающей промышленности > натронная полуцеллюлоза
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94 целлюлоза f хлорно-щелочная
Словарь по целлюлозно-бумажному производству > целлюлоза f хлорно-щелочная
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95 Viscose
Viscose was discovered by two English chemists, Charles F. Cross and E. J. Be van, working in collaboration at Kew, near London, who found that when cellulose was treated with disulphide of carbon in the presence of caustic soda, it was converted into a golden yellow plastic compound which dissolved readily in water. A solution of the plastic was of such viscosity that it was named " viscose," a name that was destined to become world famous, seeing that round about 88 per cent of the world production of rayon is now made by the viscose process. In 1892 Cross and Bevan were granted a patent on the viscose process and it was applied to many purposes before the production of a textile thread was successfully accomplished. Fundamentally, the manufacture of viscose rayon is fairly simple. The raw material may be wood pulp, pulp from cotton linters, or a mixture of the two. The greater part of the world's viscose is made from wood pulp. Viscose rayon manufacture comprises seven distinct treatments as follows: - 1. Making and purifying the cotton or wood pulp which forms the cellulose base. 2. Caustic soda treatment of the cellulose base thereby forming alkali cellulose. 3. Treatment of alkali cellulose with carbon disulphide, forming cellulose xanthate. 4. Dissolving the cellulose xanthate in weak caustic soda to form cellulose solution or viscose. 5. Spinning viscose into yarn. 6. Bleaching, purification and finishing of the yarn. 7. Preparing the yarn for weaving and knitting. -
96 Mitscherlich, Alexander
SUBJECT AREA: Paper and printing[br]b. 28 May 1836 Berlin, Germanyd. 31 May 1918 Oberstdorf, Germany[br]German inventor of sulphite wood pulp for papermaking.[br]Mitscherlich had an impeccable scientific background; his father was the celebrated chemist Eilhardt Mitscherlich, discoverer of the law of isomorphism, and his godfather was Alexander von Humboldt. At first his progress at school failed to live up to this auspicious beginning and his father would only sanction higher studies if he first qualified as a teacher so as to assure a means of livelihood. Alexander rose to the occasion and went on to gain his doctorate at the age of 25 in the field of mineralogical chemistry. He worked for a few years as Assistant to the distinguished chemists Wöhler in Göttingen and Wurtz in Paris. On his father's death in 1863, he succeeded him as teacher of chemistry in the University of Berlin. In 1868 he accepted a post in the newly established Forest Academy in Hannoversch-Munden, teaching chemistry, physics and geology. The post offered little financial advantage, but it left him more time for research. It was there that he invented the process for producing sulphite wood pulp.The paper industry was seeking new raw materials. Since the 1840s pulp had been produced mechanically from wood, but it was unsuitable for making fine papers. From the mid-1860s several chemists began tackling the problem of separating the cellulose fibres from the other constituents of wood by chemical means. The American Benjamin C.Tilghman was granted patents in several countries for the treatment of wood with acid or bisulphite. Carl Daniel Ekman in Sweden and Karl Kellner in Austria also made sulphite pulp, but the credit for devising the process that came into general use belongs to Mitscherlich. His brother Oskar came to him at the Academy with plans for producing pulp by the action of soda, but the results were inferior, so Mitscherlich substituted calcium bisulphite and in the laboratory obtained good results. To extend this to a large-scale process, he was forced to set up his own mill, where he devised the characteristic towers for making the calcium bisulphite, in which water trickling down through packed lime met a rising current of sulphur dioxide. He was granted a patent in Luxembourg in 1874 and a German one four years later. The sulphite process did not make him rich, for there was considerable opposition to it; government objected to the smell of sulphur dioxide, forestry authorities were anxious about the inroads that might be made into the forests and his patents were contested. In 1883, with the support of an inheritance from his mother, Mitscherlich resigned his post at the Academy to devote more time to promoting his invention. In 1897 he at last succeeded in settling the patent disputes and achieving recognition as the inventor of sulphite pulp. Without this raw material, the paper industry could never have satisfied the insatiable appetite of the newspaper presses.[br]Further ReadingH.Voorn "Alexander Mitscherlich, inventor of sulphite wood pulp", Paper Maker 23(1): 41–4.LRDBiographical history of technology > Mitscherlich, Alexander
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97 water
1) вода2) объём воды; расход4) обводнять6) мочить; замачивать; смачивать8) водоём•to go to water — обводняться (о скважине, месторождении, добыча нефти в которых в результате этого становится нерентабельной)-
absorbed water
-
acid waste water
-
acid water
-
activated water
-
adhesive water
-
adsorbed water
-
aerated water
-
aggressive water
-
ammonia water
-
apportioned water
-
artesian water
-
atmospheric water
-
available water
-
bleed water
-
boiler water
-
boiling water
-
borated water
-
bottom water
-
bound water
-
brackish water
-
capillary water
-
carbonate water
-
cavern water
-
char sweet water
-
chemically pure water
-
chlorinated water
-
circulating water
-
clarified water
-
cleaning purposes water
-
clear sweet water
-
clear water
-
colliery water
-
Cologne water
-
combined water
-
compensation water
-
condensate water
-
condenser water
-
condensing water
-
conductivity water
-
confined water
-
conservation water
-
constitution water
-
contaminated water
-
cooking water
-
cook water
-
cooling water
-
corrosive water
-
crystallization water
-
crystal water
-
day water
-
dead water
-
deaerated water
-
deep water
-
degassed water
-
deionized water
-
delivery water
-
demineralized water
-
dentifrice water
-
desalinized water
-
desiliconized water
-
desilting water
-
dirty sweet water
-
discharge water
-
distilled water
-
domestic water
-
downstream water
-
drain water
-
drilling water
-
drinking water
-
dystrophic water
-
effective snowmelt water
-
effluent water
-
electronic-grade water
-
electronic water
-
emergency core cooling water
-
entrained water
-
eutrophic water
-
excessive tail water
-
exchange water
-
exportable water
-
feed water
-
fixed water
-
floral water
-
flowing water
-
flushing water
-
flush water
-
formation water
-
foul water
-
free water
-
fruit soda water
-
glue water
-
gravitational water
-
gray water
-
gutter water
-
hard water
-
head water
-
heavy water
-
high water
-
hydrothermal water
-
hygroscopic water
-
ice-congested water
-
imported water
-
impounding water
-
industrial water
-
infected water
-
influent water
-
intercepted water
-
intermediate water
-
interstitial water
-
irreducible water
-
irregular temporary water
-
irrigation water
-
land water
-
leakage water
-
lenthic water
-
light water
-
lime water
-
lockage water
-
loose water
-
lothic water
-
low water
-
main water
-
makeup water
-
manufacturing water
-
mashing water
-
melt water
-
melting water
-
meteoric water
-
middle water
-
mine water
-
mineral water
-
mineralized water
-
mixing water
-
mud makeup water
-
muddy water
-
narrow water
-
navigable water
-
nonartesian water
-
noncirculating water
-
nonflashing water
-
nonmoving water
-
nonpotable water
-
nonradioactive water
-
offshore water
-
onsite water
-
open water
-
ordinary water
-
overflow water
-
overinhibited water
-
oversill water
-
oxygenated water
-
oxygenless water
-
peptone water
-
perched water
-
percolating water
-
phreatic water
-
piped water
-
polluted water
-
potable water
-
precipitation water
-
pressure water
-
pretreated water
-
process water
-
produced water
-
project water
-
pulp water
-
pulp-press water
-
pure water
-
quenching water
-
radioactive water
-
raw water
-
reactor water
-
recirculated water
-
recreation water
-
recycled water
-
regeneration water
-
residual water
-
residuary water
-
restricted water
-
return water
-
reuse water
-
rinse water
-
rose water
-
running water
-
saline water
-
salt water
-
sample water
-
sanitary water
-
saturated water
-
saturation-pressure water
-
scale-producing water
-
sediment-laden water
-
seepage water
-
service water
-
sewage water
-
shallow tail water
-
shielding water
-
shoaling water
-
silica-free water
-
silt-free water
-
silt-laden water
-
slope water
-
sludging water
-
sluice water
-
smooth water
-
snow water
-
soaking water
-
soft water
-
softened water
-
soil water
-
solid water
-
source water
-
spill water
-
spilling water
-
spray water
-
stagnant water
-
steeping water
-
steep water
-
still water
-
storage water
-
storm water
-
subcooled water
-
subsoil water
-
subsurface water
-
supercritical water
-
surface water
-
surplus water
-
suspended water
-
sweet water
-
table water
-
tail water
-
tank water
-
tap water
-
temporary water
-
thermally enriched water
-
thickened water
-
tie water
-
toilet water
-
top water
-
total precipitable water
-
town water
-
treated water
-
trypton water
-
turbid water
-
ultrapure water
-
underground water
-
underscreen water
-
upgrade water
-
upstream water
-
versatile hardness water
-
wash water
-
waste water
-
water of reaction
-
water of zero hardness
-
whirling water
-
white water -
98 Bevan, Edward John
[br]b. 11 December 1856 Birkenhead, Englandd. 17 October 1921 London, England[br]English co-inventor of the " viscose rayon " process for making artificial silk.[br]Bevan began his working life as a chemist in a soap works at Runcorn, but later studied chemistry at Owens College, Manchester. It was there that he met and formed a friendship with C.F. Cross, with whom he started to work on cellulose. Bevan moved to a paper mill in Scotland but then went south to London, where he and Cross set up a partnership in 1885 as consulting and analytical chemists. Their work was mainly concerned with the industrial utilization of cellulose, and with the problems of the paper and jute industries. Their joint publication, A Text-book of Paper-making, which first appeared in 1888 and went into several editions, became the standard reference and textbook on the subject. The book has a long introductory chapter on cellulose.In 1892 Cross, Bevan and Clayton Beadle discovered viscose, or sodium cellulose xanthate, and took out the patent which was to be the foundation of the "viscose rayon" industry. They had their own laboratory at Station Avenue, Kew Gardens, where they carried out much work that eventually resulted in viscose: cellulose, usually in the form of wood pulp, was treated first with caustic soda and then with carbon disulphide to form the xanthate, which was then dissolved in a solution of dilute caustic soda to produce a viscous liquid. After being aged, the viscose was extruded through fine holes in a spinneret and coagulated in a dilute acid to regenerate the cellulose as spinnable fibres. At first there was no suggestion of spinning it into fibre, but the hope was to use it for filaments in incandescent electric light bulbs. The sheen on the fibres suggested their possible use in textiles and the term "artificial silk" was later introduced. Cross and Bevan also discovered the acetate "Celanese", which was cellulose triacetate dissolved in acetone and spun in air, but both inventions needed much development before they could be produced commercially.In 1892 Bevan turned from cellulose to food and drugs and left the partnership to become Public Analyst to Middlesex County Council, a post he held until his death, although in 1895 he and Cross published their important work Cellulose. He was prominent in the affairs of the Society of Public Analysts and became one of its officials.[br]Bibliography1888, with C.F.Cross, A Text-book of Papermaking.1892, with C.F.Cross and C.Beadle, British patent no. 8,700 (viscose). 1895, with C.F.Cross, Cellulose.Further ReadingObituary, 1921, Journal of the Chemical Society.Obituary, 1921, Journal of the Society of Chemical Industry.Edwin J.Beer, 1962–3, "The birth of viscose rayon", Transactions of the Newcomen Society 35 (an account of the problems of developing viscose rayon; Beer worked under Cross in the Kew laboratories).RLH -
99 pump
1) насос || подавать [нагнетать\] насосом, качать2) электрон. накачка, возбуждение || накачивать, возбуждать3) электрон. генератор накачки4) электрон. излучение накачки•to pump in — накачивать;to pump off — 1. откачивать 2. (быстро) опоражнивать ( скважину скважинным насосом);to port the pump — подсоединять линию к насосу;to supercharge pump — подпитывать насос, создавать давление на всасывании насоса-
absorption heat pump
-
accelerating pump
-
accelerator pump
-
acid treatment pump
-
adjustable pump
-
adsorption pump
-
aeration jet pump
-
afteroiling pump
-
air pump
-
air-driven pump
-
air-to-air heat pump
-
air-water heat pump
-
American pump
-
angular flow pump
-
appendage pump
-
atmospheric inlet pump
-
autopriming pump
-
auxiliary feedwater pump
-
auxiliary turbine-driven feed pump
-
axial-flow pump
-
axial-piston pump
-
axial-suction pump
-
backing pump
-
ball piston pump
-
ballast pump
-
beet lifting pump
-
beet pump
-
beet pulp pump
-
bent axis-piston pump
-
bilge pump
-
blade sideshift pump
-
blower pump
-
boojee pump
-
boost pump
-
borehole pump
-
brake release pump
-
brine injection pump
-
Butterworth pump
-
cam-vane pump
-
canned pump
-
cargo pump
-
cartridge pump
-
casing sucker rod pump
-
casing pump
-
centrifugal pump
-
charging pump
-
chemical cleaning pump
-
chemical heat pump
-
chemical proportioning pump
-
chemical pump
-
circular casing pump
-
circulating pump
-
clean ballast pump
-
clean pump
-
coal pump
-
coherent pump
-
coil pump
-
cold pump
-
cold-cathode getter-ion pump
-
combination fuel pump
-
combination gear pump
-
compensated pump
-
compression pump
-
concrete pump
-
condensate pump
-
condenser pump
-
constant horsepower output pump
-
constant pressure pump
-
continuous flow pump
-
control pump
-
controlled pump
-
controlled-circulating pump
-
controlled-volume pump
-
coolant pump
-
corrosion-resistant water pump
-
crank pump
-
cryogenic pump
-
cryosorption pump
-
deep-well pump
-
delivery pump
-
dewatering pump
-
diagonal-flow pump
-
diaphragm lift pump
-
diaphragm pump
-
diffuser pump
-
diffusion pump
-
direct-acting pump
-
direct-injection pump
-
discharge pump
-
dispensing pump
-
displacement pump
-
donkey pump
-
dope transfer pump
-
dosing pump
-
double pump
-
double-acting pump
-
double-entry pump
-
double-stage pump
-
double-stroke pump
-
double-suction pump
-
double-volute pump
-
drainage pump
-
dredge pump
-
drilling mud transfer pump
-
drowned pump
-
drum pump
-
dry pump
-
dual-pressure pump
-
duplex pump
-
dye laser pump
-
earth-coupled heat pump
-
ejector pump
-
ejector-compression heat pump
-
electric pump
-
electromagnetic pump
-
electroosmotic pump
-
emulsifying pump
-
end-suction pump
-
energy pump
-
evaporation pump
-
exhaust pump
-
external gear pump
-
extraction pump
-
feathering pump
-
feeding pump
-
feed pump
-
feedwater pump
-
fire pump
-
fire-and-bilge pump
-
fish pump
-
fixed frequency pump
-
fixed-delivery pump
-
flexible hose pump
-
fluid jet pump
-
fluming water pump
-
flushing pump
-
focused pump
-
foot-mounted pump
-
force pump
-
fore pump
-
Francis-type pump
-
fresh feed pump
-
fuel backup pump
-
fuel feed pump
-
fuel injection pump
-
fuel lift pump
-
fuel priming pump
-
fuel pump
-
fuel transfer pump
-
fuel-oil pump
-
full-size boiler feed pump
-
gasoline pump
-
gas-powered pump
-
gear-type pump
-
getter pump
-
getter-ion pump
-
gravel pump
-
ground-driven steer pump
-
grouting pump
-
grout pump
-
half-size boiler feed pump
-
hand-operated pump
-
hand pump
-
hand-priming pump
-
harbor pump
-
heat pump
-
heeling pump
-
helical rotor pump
-
high-capacity pump
-
high-lift pump
-
high-pressure injection pump
-
high-pressure intensifier pump
-
high-speed pump
-
high-vacuum pump
-
horizontal pump
-
hot melt pump
-
house service pump
-
hydraulic pump
-
hypothetical pump
-
ice-cream pump
-
ice-maker heat pump
-
immersed pump
-
impeller pump
-
inclined rotor pump
-
incoherent pump
-
individual injection pump
-
injection pump
-
ink pump
-
in-line pump
-
insert oil-well pump
-
insert pump
-
integral auxiliary pump
-
internal gear pump
-
ion pump
-
jerk pump
-
jerker pump
-
jet pump
-
Kaplan-type pump
-
light pump
-
line pump
-
linearly polarized pump
-
liquid jet pump
-
liquid metal pump
-
lobe pump
-
low-lift pump
-
low-pressure injection pump
-
low-speed pump
-
lubricant pump
-
magnetic heat pump
-
magnetic-drive pump
-
main circulating pump
-
makeup pump
-
manual pump
-
marine pump
-
mash pump
-
mercury vapor diffusion pump
-
mercury diffusion pump
-
metal hydride heat pump
-
metering pump
-
mine pump
-
mixed-flow pump
-
molecular pump
-
monitor feed pump
-
mortar pump
-
motor pump
-
mud pump
-
multicellular pump
-
multicircuit pump
-
multicylinder pump
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multiflow lubricating pump
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multiple gear pump
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multiple-impeller pump
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multiple-piston pump
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multiplunger pump
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multiscrew pump
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multistage pump
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noncompensated pump
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nonpositive displacement pump
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nonuplex pump
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normal-speed pump
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oil fuel pump
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oil pump
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oil well pump
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oil-diffusion pump
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oil-free pump
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oil-measuring pump
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oil-sealed rotary pump
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oil-transfer pump
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oil-vapor pump
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open circuit pump
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optical pump
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overboard pump
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packaged heat pump
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packmix pump
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Penning type pump
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Penning pump
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peripheral pump
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peristaltic pump
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photovoltaic water pump
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pickup pump
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piston pump
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Pitot tube pump
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plunger pump
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positive displacement pump
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power control pump
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power pump
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precharge pump
-
preevacuation pump
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pressure balanced pump
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pressure pump
-
primary boiler-feed pump
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primary circuit pump
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priming pump
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propeller pump
-
proportioning pump
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pulse-free pump
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pulverized-coal pump
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purge pump
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pusher pump
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push-pull stem control pump
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quench pump
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quintuplex pump
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radial piston pump
-
radial-flow pump
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ram-type pump
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ram pump
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raw oil pump
-
reactor containment sump pump
-
reactor coolant pump
-
recharging manual pump
-
recharging pump
-
reciprocating pump
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recirculating pump
-
recycling pump
-
reflux pump
-
replenishing pump
-
reverser pump
-
reversible pump
-
rodless pump
-
rod-line pump
-
roller-vane pump
-
Roots blower pump
-
Roots pump
-
rotary pump
-
rotating swash-plate pump
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rotodynamic pump
-
rotor-type pump
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roughing pump
-
rough pump
-
salt-water pump
-
salt-water-service pump
-
salvage pump
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sand pump
-
sanitary pump
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satellite pump
-
scavenge pump
-
scavenging oil pump
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scoop pump
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screen-wash pump
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screw pump
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scum pump
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sealing water pump
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sea-water pump
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self-contained heat pump
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self-priming pump
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semirotary pump
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septuplex pump
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service pump
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servo-controlled pump
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sewage pump
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shell pump
-
shuttle-block oil pump
-
side-channel pump
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side-suction pump
-
simplex pump
-
single direct-acting pump
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single-boiler feed pump
-
single-cylinder pump
-
single-entry pump
-
single-plunger pump
-
single-stage pump
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single-stroke pump
-
sinking pump
-
sliding-vane pump
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sludge pump
-
slurry pump
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slush pump
-
soda-circulating pump
-
solar diaphragm pump
-
solar-assisted neat pump
-
sorption pump
-
space conditioning heat pump
-
spinning pump
-
split-packaged heat pump
-
squirt pump
-
steam jet air pump
-
steam jet pump
-
steam-driven pump
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steam-oil pump
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steering pump
-
storage pump
-
straight-flow pump
-
stripping pump
-
submerged-type pump
-
submerged pump
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submersible pump
-
subsurface pump
-
sucker-rod pump
-
suction pump
-
sump pump
-
swinging-vane oil pump
-
tandem pump
-
tank cleaning pump
-
test pump
-
thermal pump
-
thermoelectric heat pump
-
three-screws pump
-
thrust augmentor pump
-
tilted-body pump
-
torque flow pump
-
transfer pump
-
traveling-barrel pump
-
trimming pump
-
trim pump
-
triplex pump
-
tubing oil-well pump
-
tubing pump
-
turbine pump
-
turbo-molecular pump
-
two-lobe rotary pump
-
two-stage pump
-
two-volume pump
-
unit pump
-
vacuum pump
-
valveless pump
-
vane pump
-
vapor-jet pump
-
vapor pump
-
variable-capacity pump
-
variable-displacement pump
-
variable-stroke plunger pump
-
vertical pump
-
volumetric pump
-
volute pump
-
vortex pump
-
vortex-free pump
-
wash-deck pump
-
water pump
-
water-air heat pump
-
water-jet air pump
-
well pump
-
wellpoint pump
-
wet-pit pump
-
wheel pump
-
wind pump
-
wing pump
-
wrecking pump
-
yoke-type bent-axis pump
-
zeolite pump -
100 натронная полуцеллюлоза
Forestry: soda-semichemical pulpУниверсальный русско-английский словарь > натронная полуцеллюлоза
См. также в других словарях:
soda pulp — noun : pulp prepared by the soda process compare sulfite pulp, wood pulp … Useful english dictionary
soda pulp — noun a pulp made by reacting wood with sodium hydroxide; used to prepare white paper … Wiktionary
soda paper — noun white paper, made using soda pulp … Wiktionary
Pulp (paper) — Fibres in wood pulp Pulp is a lignocellulosic fibrous material prepared by chemically or mechanically separating cellulose fibres from wood, fibre crops or waste paper. Wood pulp is the most common raw material in papermaking. Contents … Wikipedia
Pulp Fiction (film) — Infobox Film name = Pulp Fiction caption = Promotional artwork writer = Quentin Tarantino Roger Avary starring = John Travolta Samuel L. Jackson Uma Thurman Bruce Willis Harvey Keitel Tim Roth Amanda Plummer Maria de Medeiros Ving Rhames Eric… … Wikipedia
Pulp Fiction — This article is about the Quentin Tarantino film. For the film s soundtrack, see Pulp Fiction (soundtrack). For the fiction magazine genre, see Pulp magazine. For other uses, see Pulp Fiction (disambiguation). Pulp Fiction … Wikipedia
soda — Sodium So di*um, n. [NL., fr.E. soda.] (Chem.) A common metallic element of the alkali group, in nature always occuring combined, as in common salt, in albite, etc. It is isolated as a soft, waxy, white, unstable metal, so highly reactive that it … The Collaborative International Dictionary of English
soda process — noun any of several industrial processes that either use or manufacture sodium hydroxide, but especially a method of making paper from wood pulp See Also: ammonia soda process, cryolite soda process, LeBlanc soda process, Solvay process … Wiktionary
soda process — noun : a method for making pulp by cooking wood chips at high temperature and pressure in an alkaline solution containing chiefly caustic soda … Useful english dictionary
wood pulp — noun wood that has been ground to a pulp; used in making cellulose products (as rayon or paper) • Hypernyms: ↑pulp * * * noun : pulp from softwood or hardwood that is made either mechanically or by a chemical process and that is used in making… … Useful english dictionary
Mercerised pulp — is a bleached pulp that is treated with hot dilluted alkali to get extra high bulk and high porosity[1]. The pulp feels and looks similar to a cotton ball. Contents 1 Manufacture 2 Applications 3 See also … Wikipedia