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1 водородно-кислородный топливный элемент
hydrogen-oxygen cell, oxygen-hydrogen cellРусско-английский словарь по электронике > водородно-кислородный топливный элемент
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2 водородно-кислородный топливный элемент
hydrogen-oxygen cell, oxygen-hydrogen cellРусско-английский словарь по радиоэлектронике > водородно-кислородный топливный элемент
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3 водородно-кислородный топливный элемент
1) Electronics: hydrogen-oxygen cell, oxygen-hydrogen cell2) Astronautics: hydrogen-oxygen fuel cell3) Makarov: hydrox cell, oxygen-hydrogen oxygen-hydrogen fuel cellУниверсальный русско-английский словарь > водородно-кислородный топливный элемент
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4 водородно-кислородный элемент
1) Engineering: oxygen-hydrogen cell, oxyhydrogen cell (топливный)2) Makarov: hydrogen-oxygen cell, hydrox cellУниверсальный русско-английский словарь > водородно-кислородный элемент
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5 Knallgaselement
n < chem> ■ hydrogen-oxygen fuel cell; hydrogen-oxygen cell; oxyhydrogen cell -
6 электролизёр для получения водорода и кислорода
Makarov: hydrogen-oxygen cell, hydrox cellУниверсальный русско-английский словарь > электролизёр для получения водорода и кислорода
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7 Knallgaselement
Knallgaselement n oxyhydrogen [hydrogen-oxygen] cellDeutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > Knallgaselement
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8 Wasserstoff-Sauerstoff-Zelle
Wasserstoff-Sauerstoff-Zelle f hydrogen-oxygen cellDeutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > Wasserstoff-Sauerstoff-Zelle
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9 Bacon, Francis Thomas
SUBJECT AREA: Aerospace[br]b. 21 December 1904 Billericay, Englandd. 24 May 1992 Little Shelford, Cambridge, England[br]English mechanical engineer, a pioneer in the modern phase of fuel-cell development.[br]After receiving his education at Eton and Trinity College, Cambridge, Bacon served with C.A. Parsons at Newcastle upon Tyne from 1925 to 1940. From 1946 to 1956 he carried out research on Hydrox fuel cells at Cambridge University and was a consultant on fuel-cell design to a number of organizations throughout the rest of his life.Sir William Grove was the first to observe that when oxygen and hydrogen were supplied to platinum electrodes immersed in sulphuric acid a current was produced in an external circuit, but he did not envisage this as a practical source of electrical energy. In the 1930s Bacon started work to develop a hydrogen-oxygen fuel cell that operated at moderate temperatures and pressures using an alkaline electrolyte. In 1940 he was appointed to a post at King's College, London, and there, with the support of the Admiralty, he started full-time experimental work on fuel cells. His brief was to produce a power source for the propulsion of submarines. The following year he was posted as a temporary experimental officer to the Anti-Submarine Experimental Establishment at Fairlie, Ayrshire, and he remained there until the end of the Second World War.In 1946 he joined the Department of Chemical Engineering at Cambridge, receiving a small amount of money from the Electrical Research Association. Backing came six years later from the National Research and Development Corporation (NRDC), the development of the fuel cell being transferred to Marshalls of Cambridge, where Bacon was appointed Consultant.By 1959, after almost twenty years of individual effort, he was able to demonstrate a 6 kW (8 hp) power unit capable of driving a small truck. Bacon appreciated that when substantial power was required over long periods the hydrogen-oxygen fuel cell associated with high-pressure gas storage would be more compact than conventional secondary batteries.The development of the fuel-cell system pioneered by Bacon was stimulated by a particular need for a compact, lightweight source of power in the United States space programme. Electro-chemical generators using hydrogen-oxygen cells were chosen to provide the main supplies on the Apollo spacecraft for landing on the surface of the moon in 1969. An added advantage of the cells was that they simultaneously provided water. NRDC was largely responsible for the forma-tion of Energy Conversion Ltd, a company that was set up to exploit Bacon's patents and to manufacture fuel cells, and which was supported by British Ropes Ltd, British Petroleum and Guest, Keen \& Nettlefold Ltd at Basingstoke. Bacon was their full-time consultant. In 1971 Energy Conversion's operation was moved to the UK Atomic Energy Research Establishment at Harwell, as Fuel Cells Ltd. Bacon remained with them until he retired in 1973.[br]Principal Honours and DistinctionsOBE 1967. FRS 1972. Royal Society S.G. Brown Medal 1965. Royal Aeronautical Society British Silver Medal 1969.Bibliography27 February 1952, British patent no. 667,298 (hydrogen-oxygen fuel cell). 1963, contribution in W.Mitchell (ed.), Fuel Cells, New York, pp. 130–92.1965, contribution in B.S.Baker (ed.), Hydrocarbon Fuel Cell Technology, New York, pp. 1–7.Further ReadingObituary, 1992, Daily Telegraph (8 June).A.McDougal, 1976, Fuel Cells, London (makes an acknowledgement of Bacon's contribution to the design and application of fuel cells).D.P.Gregory, 1972, Fuel Cells, London (a concise introduction to fuel-cell technology).GW -
10 Wasserstoff-Sauerstoff-Brennstoffelement
Wasserstoff-Sauerstoff-Brennstoffelement n hydrogen-oxygen fuel cell, hydrox fuel cellDeutsch-Englisch Wörterbuch der Elektrotechnik und Elektronik > Wasserstoff-Sauerstoff-Brennstoffelement
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11 регенеративный водородно-кислородный топливный элемент
Solar energy: regenerative hydrogen-oxygen fuel cellУниверсальный русско-английский словарь > регенеративный водородно-кислородный топливный элемент
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12 Wasserstoff-Sauerstoff-Brennstoffzelle
f < chem> ■ hydrogen oxygen fuel cellGerman-english technical dictionary > Wasserstoff-Sauerstoff-Brennstoffzelle
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13 Wasserstoff-Sauerstoff-Brennstoffzelle
fhydrogen oxygen fuel cellDeutsch-Englisches Wörterbuch > Wasserstoff-Sauerstoff-Brennstoffzelle
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14 водородно-кислородный элемент
oxygen-hydrogen cell, oxyhydrogen cellРусско-английский политехнический словарь > водородно-кислородный элемент
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15 кислородно-водородный элемент
1) Engineering: oxygen-hydrogen cell, oxyhydrogen cellУниверсальный русско-английский словарь > кислородно-водородный элемент
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16 кислородно-водородный (топливный) элемент
кислородно-водородный (топливный) элемент
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[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Русско-английский словарь нормативно-технической терминологии > кислородно-водородный (топливный) элемент
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17 электролизер для получения кислорода и водорода
электролизер для получения кислорода и водорода
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[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Русско-английский словарь нормативно-технической терминологии > электролизер для получения кислорода и водорода
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18 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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19 кислородно-водородный (топливный) элемент
Electrical engineering: oxygen-hydrogen cell, oxyhydrogen cellУниверсальный русско-английский словарь > кислородно-водородный (топливный) элемент
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20 электролизёр для получения кислорода и водорода
Engineering: oxygen-hydrogen cell, oxyhydrogen cellУниверсальный русско-английский словарь > электролизёр для получения кислорода и водорода
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