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1 retained acid
медленно действующая эмульсия кислоты в керосине
(для кислотной обработки)
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
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Англо-русский словарь нормативно-технической терминологии > retained acid
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2 retained acid
Большой англо-русский и русско-английский словарь > retained acid
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3 retained acid
* * *Англо-русский словарь нефтегазовой промышленности > retained acid
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4 retained acid
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5 acid
кислота || кислый, кислотный— mud acid
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кислота (в геологической литературе часто говорят просто кислота, подразумевая соляную кислоту)
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кислота || кислый, кислотный- body acid
- breakdown acid
- brown acid
- chemically retarded acid
- etching acid
- fatty acid
- formic acid
- fuel acid
- gelled acid
- glacial acetic acid
- green acid
- green sulfonic acid
- hard wood tar acids
- humic acid
- hydrochloric acid
- hydrofluoric acid
- inhibited acid
- intensified acid
- J-type acid
- lignosulfonic acid
- load acid
- mahogany acid
- mud acid
- mud-cut acid
- multiple service acid
- muriatic acid
- naphthenic acid
- naphtholdisulfonic acid
- naphtholsulfonic acid
- nitric acid
- oil soluble acid
- paraffinic acid
- petroleum acid
- polynaphthenic acid
- retained acid
- retarded acid
- silicate control acid
- sludge acid
- spent acid
- stabilized acid
- stable gelled acid
- sulfuric acid
- weak acid -
6 oil
1. нефть || нефтяной2. масло ( растительное или минеральное) || масляный3. жидкая смазка, смазочное масло || смазыватьoil struck at... — нефть встречена на глубине...
— hot oil— base oil— cut oil— dead oil— form oil— fuel oil— lean oil— live oil— load oil— lock oil— net oil— oil in— raw oil— rich oil— rock oil— seep oil— sour oil— tank oil— tar oil— wet oil
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нефть (все жидкие углеводороды, получаемые из скважин, и конденсаты, извлекаемые из природного газа)pipeline quality crude oil — нефть, соответствующая требованиям транспортирования по трубопроводу (упругость паров по Рейду в подвижном состоянии -100)
tanker specification crude oil — нефть, соответствующая требованиям транспортирования танкерами (упругость паров по Рейду в подвешенном состоянии -10)
to hold back oil in the reservoir — удерживать нефть в коллекторе;
— bad oil— base oil— cut oil— dead oil— dry oil— dump oil— fuel oil— hot oil— live oil— load oil— raw oil— rock oil— sour oil— tank oil— wet oil— wild oil
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1. нефть
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нефть (<<жидкие углеводороды, извлекаемые из природного газа) || нефтянойoil in bulk — 1) нефть наливом; нефтепродукты наливом 2) нефть в резервуаре;
oil in hole — нефть в стволе скважины;
oil in place — нефть в пласте; пластовая нефть; нефть, предположительно находящаяся в коллекторе;
oil in reserve — 1) нефть, заполняющая трубопроводы и резервуары 2) нефтепродукт, заполняющий систему заводских резервуаров и трубопроводов;
oil in sight — видимые запасы нефти;
oil in situ — нефть в пласте;
oil in storage — 1) нефть в трубопроводах 2) избыточная ( не отправленная потребителям) нефть на нефтебазах;
oil initially in place — первоначальные запасы нефти в коллекторе;
oil originally in reservoir — начальное содержание нефти в пласте;
to carry oil — содержать нефть;
to flood oil toward production well — вытеснять нефть ( водой) к добывающей скважине;
to hold back oil in the reservoir — удерживать нефть в коллекторе;
to make oil — добывать нефть;
to run the oil — 1) измерять количество нефти в промысловых резервуарах 2) перекачивать нефть из промысловых резервуаров по трубопроводу;
to skim off oil — собирать нефть, разлившуюся на поверхности воды;
to strike oil — обнаруживать месторождение нефти;
- oil of paraffinoil to surface — нефть, поступающая на поверхность;
- abandoned oil
- absorbent oil
- adsorbed oil
- absorption oil
- acid oil
- acid-refined oil
- acid-stage oil
- additive blended oil
- additive motor oil
- additive treated oil
- additive-type oil
- admiralty fuel oil
- aeroengine oil
- air filter oil
- aircraft oil
- airplane oil
- all-purpose engine oil
- alpha oil
- American paraffin oil
- Appalachian oil
- aqueous-soluble oil
- Arctic oil
- aromatic-base crude oil
- asphalt-base oil
- asphalt-free oil
- asphaltic road oil
- asphaltum oil
- automobile oil
- average-quality oil
- axle oil
- bad oil
- base oil
- batch oil
- Beaumont oil
- bentonite diesel oil
- benzolized oil
- benzyl mustard oil
- black oil
- blasting oil
- blended fuel oil
- blue oil
- bobbin oil
- bodied oil
- boiler oil
- branded oil
- break-in oil
- bright oil
- bubble point oil
- burner oil
- burning oil
- by-passed oil
- capacitor oil
- car oil
- carbon oil
- cargo oil
- catalytic gas oil
- circuit-breaker oil
- clay-filtered oil
- clean oil
- cleaning oil
- cleansing oil
- coal oil
- coastal oil
- coker gas oil
- cold-settled oil
- cold-test oil
- commercial oil
- compressor oil
- concrete form oil
- condensed oil
- condenser oil
- conventional oil
- cordage oil
- corrected oil
- crankcase oil
- crevice oil
- crude oil
- crude mineral oil
- crude petroleum fuel oil
- crude shale oil
- crystal oil
- cut oil
- cutter oil
- cutting oil
- cycle oil
- cycle gas oil
- cylinder oil
- dangerous oil
- dead oil
- debenzolized oil
- degassed oil
- denuded oil
- desalinized oil
- development oil
- dielectrical oil
- diesel oil
- diesel-fuel oil
- dispersed oil
- dissolved oil
- distillate oil
- distillate fuel oil
- domestic oil
- doped oil
- dry oil
- dual-purpose oil
- dump oil
- earth oil
- economically recoverable oil
- electrical switch oil
- emulsified crude oil
- emulsion oil
- engine oil
- enriched oil
- entrained oil
- equilibrium oil
- estimated original oil in place
- explosive oil
- extra-heavy crude oil
- first-quality oil
- fluid oil
- flush oil
- fluxing oil
- foam oil
- foot's oil
- foreign oil
- form oil
- fossil oil
- free oil
- fuel oil
- furnace oil
- gaged oil
- gas oil
- gas absorber oil
- gas and mud-cut oil
- gas-cut oil
- gas-cut load oil
- gear oil
- gearbox oil
- gearcase oil
- gelled oil
- graphite lubrication oil
- grease oil
- grease-spoiled oil
- green bloom oil
- green cast oil
- hard oil
- heating oil
- heavy oil
- heavy-cycle gas oil
- heavy-duty supplement oil
- heavy gas oil
- heavy lubricating oil
- heavy neutral oil
- high-gravity oil
- high-pour-point oil
- high-pour-test oil
- high-pressure oil
- high-temperature shale oil
- highly detergent oil
- highly refined oil
- highly resinous oil
- hot oil
- hybrid-base oil
- hydraulic oil
- hydraulic system oil
- hydrocarbon oils
- hydrofined oil
- hydrogen-deficient gas oil
- illuminating oil
- imported oil
- inactive oil
- incremental oil
- industrial white oil
- initial oil in place
- initial oil in reservoir
- in-place oil
- inspissated oil
- instrument oil
- insulating oil
- intermediate oil
- irreducible oil
- kerosene oil
- lake oil
- lamp oil
- lean oil
- lease oil
- light oil
- light crude oil
- light cycle gas oil
- light engine oil
- light fuel oil
- light gas oil
- light viscosity oil
- lightwood oil
- limestone oil
- live oil
- livered oil
- load oil
- lock oil
- long-time burning oil
- loom oil
- low-gravity oil
- low-viscosity oil
- lubricating oil
- machinery oil
- make-up oil
- marine oil
- marine engine oil
- merchantable oil
- middle oil
- Middle East oil
- migratory oil
- mineral oil
- mineral earth oil
- mineral seal oil
- miner's oil
- mixed asphaltic base oil
- mixed-base oil
- mother oil
- motor oil
- moveable oil
- mud oil
- mud-cut oil
- multigrade oil
- noncongealable oil
- nondrying oil
- opal oil
- naphthalene oil
- naphthene oil
- natural oil
- net oil
- net residual oil
- nonabsorbent oil
- nonfoaming oil
- nonrecoverable oil
- nonresinous oil
- nonsulfurous oil
- occluded oil
- offshore oil
- original oil in place
- original stock tank oil in place
- oxydized oil
- oxygenated oil
- pale oil
- paraffin-base oil
- paraffin-base crude oil
- paraffinic oil
- pattern oil
- penetrating oil
- petrolatum oil
- petroleum fuel oil
- petroleum gas oil
- pilot oil
- piped oil
- pipeline oil
- pipeline quality crude oil
- polybase oil
- power oil
- primary oil
- produced oil
- prospective oil
- pumping load oil
- pure oil
- range oil
- raw oil
- recirculating oil
- reclaimed lubricating oil
- recoverable oil
- recovered oil
- red oil
- reduced oil
- reduced fuel oil
- refined oil
- residual oil
- retained oil
- returning circulation oil
- rich oil
- road oil
- rock oil
- roily oil
- rustproof oil
- saturated oil
- scavenge oil
- scrubbing oil
- secondary oil
- seep oil
- selective solvent-extracted oil
- selective solvent-refined oil
- separator oil
- service DG oil
- service DM oil
- service DS oil
- service ML oil
- service MM oil
- service MS oil
- shafting oil
- shale oil
- Sherwood oil
- short oil
- shrinked oil
- skunk oil
- slightly gas-cut oil
- sludge oil
- slurry oil
- slush oil
- slushing oil
- solar oil
- solid oil
- solidified oil
- soluble oil
- sorbed oil
- sour oil
- spindle oil
- steam-distillable oil
- steam-refined oil
- stock-tank oil
- stock-tank oil in place
- stoker's oil
- stone oil
- stove oil
- straight mineral oil
- straw oil
- stripped oil
- stripping oil
- subzero oil
- sulfonated oil
- sulfur-bearing oil
- sulfurous oil
- summer oil
- surplus oil
- sweat oil
- sweet oil
- switch oil
- tank oil
- tanker specification crude oil
- tar oil
- tarry oil
- tertiary oil
- thin oil
- thinned oil
- topped oil
- torch oil
- tractor oil
- transformer oil
- trapped oil
- trimming oil
- trolly oil
- turkey-red oil
- undiluted engine oil
- univis oil
- unrecovered oil
- unrefinable oil
- unrefinable crude oil
- unstripped oil
- untreated oil
- vaporizing oil
- vulcan oil
- washed blue oil
- waste oil
- water-cut oil
- watered oil
- watery oil
- wax oil
- wet oil
- white oil
- wild oil
- winter oil
- wirerope oil* * *• нефть• нефтяной -
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
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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 Grove, Sir William Robert
SUBJECT AREA: Electricity[br]b. 11 July 1811 Swansea, Walesd. 1 August 1896 London, England[br]Welsh chemist and physicist, inventor of the Grove electrochemical primary cell.[br]After education at Brasenose College, Oxford, Grove was called to the Bar in 1835. Instead of immediately practising, he became involved in electrical research, devising in 1839 the cell that bears his name. He became Professor of Experimental Philosophy at the London Institution from 1840 to 1845; it was during this period that he built up his high reputation among physicists. In 1846 he published On the Correlation of Physical Forces, which was based on a course of his lectures. He returned to the practice of law, becoming a judge in 1871, but retained his interest in scientific research during his sixteen-year occupancy of the Bench. He served as a member of the Council of the Royal Society in 1846 and 1847 and played a leading part in its reform. Contributing to the science of electrochemistry, he invented the Grove cell, which together with its modification by Bunsen became an important source of electrical energy during the middle of the nineteenth century, before mechanically driven generators became available. The Grove cell had a platinum electrode immersed in strong nitric acid, separated by a porous diaphragm from a zinc electrode in weak sulphuric acid. The hydrogen formed at the platinum electrode was immediately oxidized by the acid, turning it into water. This avoided the polarization which occurred in the early copper-zinc cells. It was a very powerful primary cell with a high voltage and a low internal resistance, but it produced objectionable fumes. Grove also invented his "gas battery", the earliest fuel cell, in which a current resulted from the chemical energy released from combining oxygen and hydrogen. This was developed by Rawcliffe and others, and found applications as a power source in manned spacecraft.[br]Principal Honours and DistinctionsKnighted 1872. FRS 1840. Fellow of the Chemistry Society 1841. Royal Society Royal Medal 1847.Bibliography1846, On the Correlation of Physical Forces, London; 1874, 6th edn, with reprints of many of Grove's papers (his only book, an early view on the conservation of energy).1839, "On a small voltaic battery of great energy", Philosophical Magazine 15:287–93 (his account of his cell).Further ReadingObituary, 1896, Electrician 37:483–4.K.R.Webb, 1961, "Sir William Robert Grove (1811–1896) and the origin of the fuel cell", Journal of the Royal Institute of Chemistry 85: 291–3 (for the present-day significance of Grove's experiments).C.C.Gillispie (ed.), 1972, Dictionary of Scientific Biography, Vol. V, New York, pp. 559–61.GWBiographical history of technology > Grove, Sir William Robert
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9 Roebuck, John
SUBJECT AREA: Chemical technology[br]b. 1718 Sheffield, Englandd. 17 July 1794[br]English chemist and manufacturer, inventor of the lead-chamber process for sulphuric acid.[br]The son of a prosperous Sheffield manufacturer, Roebuck forsook the family business to pursue studies in medicine at Edinburgh University. There he met Dr Joseph Black (1727–99), celebrated Professor of Chemistry, who aroused in Roebuck a lasting interest in chemistry. Roebuck continued his studies at Leyden, where he took his medical degree in 1742. He set up in practice in Birmingham, but in his spare time he continued chemical experiments that might help local industries.Among his early achievements was his new method of refining gold and silver. Success led to the setting up of a large laboratory and a reputation as a chemical consultant. It was at this time that Roebuck devised an improved way of making sulphuric acid. This vital substance was then made by burning sulphur and nitre (potassium nitrate) over water in a glass globe. The scale of the process was limited by the fragility of the glass. Roebuck substituted "lead chambers", or vessels consisting of sheets of lead, a metal both cheap and resistant to acids, set in wooden frames. After the first plant was set up in 1746, productivity rose and the price of sulphuric acid fell sharply. Success encouraged Roebuck to establish a second, larger plant at Prestonpans, near Edinburgh. He preferred to rely on secrecy rather than patents to preserve his monopoly, but a departing employee took the secret with him and the process spread rapidly in England and on the European continent. It remained the standard process until it was superseded by the contact process towards the end of the nineteenth century. Roebuck next turned his attention to ironmaking and finally selected a site on the Carron river, near Falkirk in Scotland, where the raw materials and water power and transport lay close at hand. The Carron ironworks began producing iron in 1760 and became one of the great names in the history of ironmaking. Roebuck was an early proponent of the smelting of iron with coke, pioneered by Abraham Darby at Coalbrookdale. To supply the stronger blast required, Roebuck consulted John Smeaton, who c. 1760 installed the first blowing cylinders of any size.All had so far gone well for Roebuck, but he now leased coal-mines and salt-works from the Duke of Hamilton's lands at Borrowstonness in Linlithgow. The coal workings were plagued with flooding which the existing Newcomen engines were unable to overcome. Through his friendship with Joseph Black, patron of James Watt, Roebuck persuaded Watt to join him to apply his improved steam-engine to the flooded mine. He took over Black's loan to Watt of £1,200, helped him to obtain the first steam-engine patent of 1769 and took a two-thirds interest in the project. However, the new engine was not yet equal to the task and the debts mounted. To satisfy his creditors, Roebuck had to dispose of his capital in his various ventures. One creditor was Matthew Boulton, who accepted Roebuck's two-thirds share in Watt's steam-engine, rather than claim payment from his depleted estate, thus initiating a famous partnership. Roebuck was retained to manage Borrowstonness and allowed an annuity for his continued support until his death in 1794.[br]Further ReadingMemoir of John Roebuck in J.Roy. Soc. Edin., vol. 4 (1798), pp. 65–87.S.Gregory, 1987, "John Roebuck, 18th century entrepreneur", Chem. Engr. 443:28–31.LRD -
10 water
1) вода; уровень воды2) орошать; увлажнять; мочить; смачивать, поливать; поить3) просачиваться, давать течь4) разбавлять•- water of condensation - water of crystallization - absorption water - acid water - acid waste water - activated water - adhesive water - adsorbed water - aerated water - aggressive water - alkaline water - artesian water - atmospheric water - attraction water - backwash water - banked-up water - basal water - bathing water - bitter water - bleed-off water - boiler water - boiling water - bottom water - bound water - brackish water - capillary water - chemically combined water - chilled water - chlorinated water - chlorine water - circulating water - city water - clarified water - clear water - combined water - condensed water - confined water - connate water - contaminated water - cooling water - corrosive water - crystallization water - dammed water - day water - deep water - deionized water - delivered water - diluted water - dirty water - discharge water - dish water - distilled water - domestic water - domestic hot water - downstream water - drain water - drinking water - earthy water - earth water - edge water - effluent water - entrained water - eternal water - excess water - excessive tail water - feed water - film water - fixed water - finished water - fleet water - flood water - flowing water - flowing sheet water - flushing water - foul water - free water - fresh water - fringe water - gauging water - gel water - graphite water - gravitational water - gravity water - gravity ground water - gray water - gritty water - ground water - gutter water - hard water - head water - heavy water - high water - hydrate water - hydration water - hygroscopic water - impotable water - impounded surface water - impure water - industrial water - industrial waste water - infiltration water - influent water - injection water - intermediate water - interstitial water - irrigation water - jacket water - lagooned water - leakage water - level water - lime water - lockage water - low water - main water - make-up water - manufacturing water - mean high water - mean low water - melt water - meteoric water - microbiologically safe water - mine water - mineral water - mineral-free water - mixing water - moderately hard water - mother water - muddy water - municipal water - natural water - naturally soft water - natural sparkling water - natural tail water - nonartesian water - noncirculating water - nonpotable water - onsite water - outlet water - overflow water - perched water - percolating water - phreatic water - piped water - pit water - potable water - power water - precipitated water - press water - priming water - process water - product water - pure water - quarry water - quiescent water - rain water - raw water - reclaimed water - recycled water - residuary water - retained water - return water - reuse water - river water - running water - rusty water - safe water - saline water - saline-alkaline water - salt water - sample water - sanitary water - scale-producing water - sea water - seepage water - seismic sea water - seltzer water - service water - sewage water - shallow water - shoal water - sluicing water - snow water - soft water - softened water - sparkling water - spilling water - sprayed water - spring water - stagnant water - still water - still head water - storm water - subcutaneous water - subsurface water - sulphur water - surface water - suspended water - swamp water - sweet water - tail water - tap water - thawing water - thermal water - tide water - town water - treated water - trickling water - turbid water - uncontaminated water - underground water - untreated water - upper water - vadose water - very hard water - wash water - washing water - waste water - wasted water - well water - whirling water* * *1. вода; влага2. поливать водой; увлажнять, орошать- water of hydrationwater contained in aggregates — вода, содержащаяся в заполнителях; вода, поглощённая заполнителями
- absorbed water
- adsorbed water
- aggressive water
- artesian water
- bank-filtered water
- batched water
- bleed water
- boiler water
- bound water
- brackish water
- capillary fringe water
- chilled water
- circulating water
- city water
- clean water
- clear water
- concrete curing water
- condenser water
- confined water
- cooling water
- cut water
- deep-well water
- domestic hot water
- drinking water
- emergency water
- excess water
- feed water
- finished water
- finish water
- foul water
- free water
- fresh water
- fringe water
- gauged water
- glycol water
- gravitational water
- gravity water
- hard water
- heating water
- held water
- higher high water
- higher low water
- high pressure hot water
- hygroscopic water
- impounded water
- industrial water
- industrial waste water
- infiltration water
- interstitial water
- intrapermafrost water
- javelle water
- lime water
- lockage water
- low water
- lower high water
- lower low water
- low pressure hot water
- low temperature hot water
- mains water
- make-up water
- mixing water
- perched water
- phreatic water
- potable water
- pressure water
- primary water
- process water
- raw water
- receiving water
- recirculated water
- recooling water
- regenerated water
- return water
- reused sewage water
- rinse water
- salt water
- scavenging water
- sea water
- silicone water
- slop water
- sludge water
- soft water
- storm water
- subpermafrost water
- subsurface water
- superheated water
- suprapermafrost water
- surface water
- surplus water
- sweet water
- system water
- tape water
- untreated water
- used water
- washout water
- wash water
- waste water
- well water -
11 Lawes, Sir John Bennet
SUBJECT AREA: Agricultural and food technology[br]b. 28 December 1814 Rothamsted, Hertfordshire, Englandd. 31 August 1900 Rothamsted, Hertfordshire, England[br]English scientific agriculturalist.[br]Lawes's education at Eton and Oxford did little to inform his early taste for chemistry, which he developed largely on his own. By the age of 20 he had fitted up the best bedroom in his house as a fully equipped chemical laboratory. His first interest was in the making of drugs; it was said that he knew the Pharmacopoeia, by heart. He did, however, receive some instruction from Anthony Todd Thomson of University College, London. His father having died in 1822, Lawes entered into possession of the Rothamsted estate when he came of age in 1834. He began experiments with plants with uses as drugs, but following an observation by a neighbouring farmer of the effect of bones on the growth of certain crops Lawes turned to experiments with bones dissolved in sulphuric acid on his turnip crop. The results were so promising that he took out a patent in 1842 for converting mineral and fossil phosphates into a powerful manure by the action of sulphuric acid. The manufacture of these superphosphates became a major industry of tremendous benefit to agriculture. Lawes himself set up a factory at Deptford in 1842 and a larger one in 1857 at Barking Creek, both near London. The profits from these and other chemical manufacturing concerns earned Lawes profits which funded his experimental work at Rothamsted. In 1843, Lawes set up the world's first agricultural experiment station. Later in the same year he was joined by Joseph Henry Gilbert, and together they carried out a considerable number of experiments of great benefit to agriculture, many of the results of which were published in the leading scientific journals of the day, including the Philosophical Transactions of the Royal Society. In all, 132 papers were published, most of them jointly with Gilbert. A main theme of the work on plants was the effect of various chemical fertilizers on the growth of different crops, compared with the effects of farm manure and of no treatment at all. On animal rearing, they studied particularly the economical feeding of animals.The work at Rothamsted soon brought Lawes into prominence; he joined the Royal Agricultural Society in 1846 and became a member of its governing body two years later, a position he retained for over fifty years. Numerous distinctions followed and Rothamsted became a place of pilgrimage for people from many parts of the world who were concerned with the application of science to agriculture. Rothamsted's jubilee in 1893 was marked by a public commemoration headed by the Prince of Wales.[br]Principal Honours and DistinctionsBaronet 1882. FRS 1854. Royal Society Royal Medal (jointly with Gilbert) 1867.Further ReadingMemoir with portrait published in J. Roy. Agric. Soc. Memoranda of the origin, plan and results of the field and other experiments at Rothamsted, issued annually by the Lawes Agricultural Trust Committee, with a list of Lawes's scientific papers.LRD -
12 form
1) форма; (внешний) вид;2) формировать, придавать форму или вид4) мн. ч. строит. опалубка5) каркас для намотки ( катушек)6) вчт. формат7) вчт. страница ( распечатки или печатного документа)8) бланк; формуляр; форма10) профиль; контур11) образовывать; составлять12) формовать•to dismantle forms — снимать (разбирать) опалубку;to drop a form — расключать печатную форму;to ease forms — отделять (отрывать) опалубку;to erect ( to set) forms — сооружать( устанавливать) опалубку;to strike (to strip) forms — снимать (разбирать) опалубкуform of groove — 1. метал. профиль ручья 2. профиль канавки или пазаform of section — форма сечения; профильform of weld — тип сварного шва-
abbreviated form of message
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accounting form
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acid form
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aerodynamic form
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analog form
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analytic form
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anionic form
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Backus-Naur normal form
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basic form
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beam and slab form
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binary form
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blow mold form
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box form
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burst form
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business form
-
cable form
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carbon-interleaved forms
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carbonless business form
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casting form
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cationic form
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Cauchy's form of the remainder
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Cauchy form of the remainder
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circular-arc form
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climbing forms
-
coding form
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coil form
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collapsible forms
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column form
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comparison form
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concave form of roll
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concrete form
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continuous forms
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continuously moving forms
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crystal form
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crystallographic form
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cut form
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digital form
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edge form
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extended Backus-Naur form
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field form
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fixed form
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flake graphite form
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free form
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freezing form
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general form
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glass waste form
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graphical form
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harmonic form
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Hermitian form
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high-level waste form
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high-temperature form
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hybrid form
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ice form
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integrated-circuit form
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integrated form
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internal form
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ionic form
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ionized form
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knock-down forms
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large-panel forms
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ledeburite forms
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letter form
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linear form
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loam form
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longitudinal tooth form
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low-level waste form
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machine-readable form
-
master form
-
metal form
-
moving forms
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multilinear form
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multiple nested form
-
normal form
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normalized form
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panel forms
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parison form
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permanent forms
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plaster form
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plate form of wax crystals
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polar form
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prefabricated forms
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printed form
-
profile form
-
pulse form
-
quadratic form
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relief form
-
replicative form of DNA
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retained forms
-
reusable forms
-
sentential form
-
shell form
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simulated waste form
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skeleton form
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sliding forms
-
slip form
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small-panel forms
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soap form
-
split form
-
standard form
-
streamlined form
-
tabular form
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test form
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tilting form
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tooth form
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transverse tooth form
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traveling forms
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trigonometric form
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type form
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wall forms -
13 strength
1) сила; интенсивность2) прочность; предел прочности, временное сопротивление ( материала)3) напряжённость ( поля)4) крепость, концентрация ( раствора)5) численность, количество•-
abrasion coke strength
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absorption strength
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acid strength
-
adhesion strength
-
adhesive fracture strength
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aged strength
-
air-dry strength
-
alcohol strength
-
annealed strength
-
aroma strength
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baked strength
-
baking strength
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base strength
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beam strength
-
bearing strength
-
bending strength
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bonding strength
-
bond strength
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breakdown strength
-
breaking strength
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brine strength
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brittle strength
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buckling strength
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bulk strength
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bursting strength
-
burst strength
-
caking strength
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carcass strength
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cartridge strength
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Charpy impact strength
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cleavage strength
-
coating strength
-
cohesive fracture strength
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cohesive strength
-
cold-work strength
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collecting strength
-
color strength
-
combined strength
-
compression strength
-
compression yield strength
-
conventional yield strength
-
corrosion fatigue strength
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crack strength
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creep rupture strength
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creep strength
-
cross direction strength
-
cross strength
-
crushing strength
-
cube crushing strength
-
cured tensile strength
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current strength
-
dielectric strength
-
disruptive electric strength
-
dry bond strength
-
dry strength
-
dye strength
-
dynamic strength
-
electric field strength
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electric strength
-
endurance strength
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field strength
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film strength
-
flavor strength
-
flexural strength
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flow strength
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fluorescence strength
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folding strength
-
fore-and-aft strength
-
full strength
-
gel strength
-
green bond strength
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green strength
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high-temperature strength
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image strength
-
impact fatigue strength
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impact puncture strength
-
impact strength
-
impulse strength
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ink strength
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insulating strength
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interference field strength
-
interlaminar strength
-
knot strength
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liquor strength
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longitudinal strength
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long-term strength
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loop strength
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magnetic field strength
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magnetic pole strength
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mask strength
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mechanical strength
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notch impact strength
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offset yield strength
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opening strength
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overall strength
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paper wet strength
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pavement strength
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peel strength
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picking strength
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plastic strength
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plybond strength
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proof strength
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pull strength
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puncture strength
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radio field strength
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raw-tensile strength
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repeated flexural strength
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repeated impact bending strength
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retained strength
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rubber-to-cord-bond strength
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rupture strength
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sand strength
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setting strength
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shearing strength
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shear strength
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shear-through-thickness strength
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shock strength
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short-time strength
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signal strength
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sliding strength
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solution strength
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solvent strength
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source strength
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specific dielectric strength
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static strength
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strength of coupling
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strength of insulation
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strength of pole
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strength of radiation
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strength of shade
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stripping strength
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structural strength
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surface strength
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tearing strength
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tensile splitting strength
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tensile strength
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tensile yield strength
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thermal short-circuit strength
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thread strength
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tinctorial strength
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torsional strength
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transverse strength
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twisting strength
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U strength
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ultimate strength
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vibration strength
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wave strength
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weight strength
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weld strength
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wet bursting strength
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wet strength
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wind strength
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working strength
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yield strength -
14 gas
газ
gas initially in place начальные геологические запасы газа (до начала разработки месторождения)
associated gas попутный газ
carbonic acid gas углекислый газ
chemically inactive gas инертный газ
coal gas угольный газ
coal field gas природный угольный газ
combustible gas горючий газ
detonating gas гремучий газ
dry gas сухой газ
escaping gas улетучивающийся газ
explosive gas гремучий газ
flared gas газ, сожжённый в факелах
free gas свободный газ (в залежи)
fuel gas топливный газ
fumarole gas фумарольный газ
geopressured gas газ, связанный с зонами аномально высоких или геостатических пластовых давлений
high-Btu gas высококалорийный газ
hydrocarbon gas углеводородный газ
included gas включённый газ, газ в пустотах
industrial (commercial) gas промышленный газ
inert gas инертный газ
injected gas газ, нагнетаемый в пласт
in-place petroleum gas нефтяной газ в пласте
juvenile gas ювенильный газ
lean gas тощий газ
lift gas газ, применяемый для газлифта
liquefied gas сжиженный газ
low-Btu gas низкокалорийный газ
marketable gas gas товарный газ
marsh gas болотный газ
medium Btu gas среднекалорийный газ
mine gas рудничный газ
mud-volcanic gas газ грязевых вулканов
natural gas природный газ
noble gas благородный [инертный] газ
nonassociated gas непопутный газ
occluded gas окклюдированный газ
oil-dissolved gas попутный нефтяной газ, растворённый в нефти газ
petroleum gas нефтяной газ
phreatic gas фреатический газ
radiogenic gas радиогенный газ
recoverable gas извлекаемый газ
resurgent gas освобождённый газ
retained gas сорбированный газ
rich gas газ, богатый летучими компонентами
sour gas высокосернистый газ
sulfurous gas сернистый газ
sweet gas природный газ с малым содержанием серы
tank gas товарный газ
tight gas газ в плотных породах (в уплотнённых песчаниках, сланцах)
toxic gas токсичный газ
trapped gas 1. захваченный (нефтью) газ 2. уловленный газ
volcanic gas вулканический газ
wet gas влажный газ gash 1. разрыв 2. обрушение 3. глубокая узкая депрессия
* * *• метан -
15 Cross, Charles Frederick
[br]b. 11 December 1855 Brentwood, Middlesex, Englandd. 15 April 1935 Hove, England[br]English chemist who contributed to the development of viscose rayon from cellulose.[br]Cross was educated at the universities of London, Zurich and Manchester. It was at Owens College, Manchester, that Cross first met E.J. Bevan and where these two first worked together on the nature of cellulose. After gaining some industrial experience, Cross joined Bevan to set up a partnership in London as analytical and consulting chemists, specializing in the chemistry and technology of cellulose and lignin. They were at the Jodrell laboratory, Kew Gardens, for a time and then set up their own laboratory at Station Avenue, Kew Gardens. In 1888, the first edition of their joint publication A Textbook of Paper-making, appeared. It went into several editions and became the standard reference and textbook on the subject. The long introductory chapter is a discourse on cellulose.In 1892, Cross, Bevan and Clayton Beadle took out their historic patent on the solution and regeneration of cellulose. The modern artificial-fibre industry stems from this patent. They made their discovery at New Court, Carey Street, London: wood-pulp (or another cheap form of cellulose) was dissolved in a mixture of carbon disulphide and aqueous alkali to produce sodium xanthate. After maturing, it was squirted through fine holes into dilute acid, which set the liquid to give spinnable fibres of "viscose". However, it was many years before the process became a commercial operation, partly because the use of a natural raw material such as wood involved variations in chemical content and each batch might react differently. At first it was thought that viscose might be suitable for incandescent lamp filaments, and C.H.Stearn, a collaborator with Cross, continued to investigate this possibility, but the sheen on the fibres suggested that viscose might be made into artificial silk. The original Viscose Spinning Syndicate was formed in 1894 and a place was rented at Erith in Kent. However, it was not until some skeins of artificial silk (a term to which Cross himself objected) were displayed in Paris that textile manufacturers began to take an interest in it. It was then that Courtaulds decided to investigate this new fibre, although it was not until 1904 that they bought the English patents and developed the first artificial silk that was later called "rayon". Cross was also concerned with the development of viscose films and of cellulose acetate, which became a rival to rayon in the form of "Celanese". He retained his interest in the paper industry and in publishing, in 1895 again collaborating with Bevan and publishing a book on Cellulose and other technical articles. He was a cultured man and a good musician. He was elected a Fellow of the Royal Society in 1917.[br]Principal Honours and DistinctionsFRS 1917.Bibliography1888, with E.J.Bevan, A Text-book of Papermaking. 1892, British patent no. 8,700 (cellulose).Further ReadingObituary Notices of the Royal Society, 1935, London. Obituary, 1935, Journal of the Chemical Society 1,337. Chambers Concise Dictionary of Scientists, 1989, Cambridge.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).C.Singer (ed.), 1978, A History of Technology, Vol. VI, Oxford: Clarendon Press.RLHBiographical history of technology > Cross, Charles Frederick
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16 Malouin, Paul-Jacques
SUBJECT AREA: Metallurgy[br]b. 29 June 1701 Caen, Franced. 3 January 1778 Versailles, France[br]French medical practitioner who suggested producing tin plate with zinc.[br]Setting out to study law, Malouin turned to scientific studies, settling in Paris to teach and practice medicine. He retained his scientific interest in the field of chemistry, producing memoirs on zinc and tin, and. as early as 1742 suggested that a type of tin plate might instead be produced with zinc. A method of zinc-coating hammered-iron saucepans was introduced briefly at Rouen in the early 1780s.His contribution to early volumes of Diderot's Encyclopédie included those on "Alchemy", "Antimony", "Acid" and "Alkali". Malouin also applied his scientific knowledge to articles on milling and baking for the Academy in Descriptions des arts et métiers.[br]Principal Honours and DistinctionsElected to Academy 1742. FRS 1753.Further ReadingDumas, 1831, Treatise de chimie appliqué aux arts 3, 218.J.R.Partington, 1961, A History of Chemistry, Vol. III (refers to Malouin's work in chemistry).John Percy, 1864, Metallurgy: Iron and Steel, London: John Murray, 155 (provides brief references to his theories on zinc coatings).See also: Craufurd, Henry WilliamJD
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vogue words — In its meaning ‘popular use or currency’, vogue dates from the 17c, but the expression vogue word (or term) did not come into general use until the 20c. Fowler, who was one of the first to use the term, defined it as a word that ‘emerges from… … Modern English usage
медленно действующая эмульсия кислоты в керосине — (для кислотной обработки) [http://slovarionline.ru/anglo russkiy slovar neftegazovoy promyishlennosti/] Тематики нефтегазовая промышленность EN retained acid … Справочник технического переводчика
Life Sciences — ▪ 2009 Introduction Zoology In 2008 several zoological studies provided new insights into how species life history traits (such as the timing of reproduction or the length of life of adult individuals) are derived in part as responses to… … Universalium
pregnancy — /preg neuhn see/, n., pl. pregnancies. the state, condition, or quality of being pregnant. [1520 30; PREGN(ANT) + ANCY] * * * Process of human gestation that takes place in the female s body as a fetus develops, from fertilization to birth (see… … Universalium