basic+engineering+development

basic engineering development

Military: BED

основной этап технической разработки

Military: basic engineering development

исходные данные

1) General subject: bench-mark data, basic data, benchmark data, raw data, feed data

2) Computers: input data

3) Biology: base line

4) Military: base data, opening narrative

5) Engineering: initial data, source data

6) Mathematics: given data, input data, original observations (эмпирические), s

7) Economy: base values, bench marks, initial values, starting data

8) Diplomatic term: data base (на переговорах о разоружении)

9) Psychology: primary date, reference date

10) Telecommunications: initial conditions

11) Information technology: master data

12) Oil: basis оf design, design premises

13) Astronautics: design data, preliminary data, reference data

14) Geophysics: prestack data

15) Ecology: baseline, baseline data

16) Advertising: background, data, original data, original information, primary data

17) Business: base value

18) Sakhalin energy glossary: background data, basic engineering design data, design basis (для проектирования)

19) Quality control: initial value

20) Chemical weapons: source (preliminary) data

21) Makarov: basic data (исследования), entering wedge, input data (исследования), raw data (исследования)

22) Gold mining: (необработанные) raw data

23) oil&gas: design premise (для проектирования)

24) Combustion gas turbines: initial condition

25) Research and development: baseline information

Artificial Intelligence

   1) Programs and the Complexity of Human Mental Processes

   In my opinion, none of [these programs] does even remote justice to the complexity of human mental processes. Unlike men, "artificially intelligent" programs tend to be single minded, undistractable, and unemotional. (Neisser, 1967, p. 9)

   2) Artificial Intelligence Is an Engineering Discipline

   Future progress in [artificial intelligence] will depend on the development of both practical and theoretical knowledge.... As regards theoretical knowledge, some have sought a unified theory of artificial intelligence. My view is that artificial intelligence is (or soon will be) an engineering discipline since its primary goal is to build things. (Nilsson, 1971, pp. vii-viii)

   3) A Sceptical View of Artificial Intelligence

   Most workers in AI [artificial intelligence] research and in related fields confess to a pronounced feeling of disappointment in what has been achieved in the last 25 years. Workers entered the field around 1950, and even around 1960, with high hopes that are very far from being realized in 1972. In no part of the field have the discoveries made so far produced the major impact that was then promised.... In the meantime, claims and predictions regarding the potential results of AI research had been publicized which went even farther than the expectations of the majority of workers in the field, whose embarrassments have been added to by the lamentable failure of such inflated predictions....

   When able and respected scientists write in letters to the present author that AI, the major goal of computing science, represents "another step in the general process of evolution"; that possibilities in the 1980s include an all-purpose intelligence on a human-scale knowledge base; that awe-inspiring possibilities suggest themselves based on machine intelligence exceeding human intelligence by the year 2000 [one has the right to be skeptical]. (Lighthill, 1972, p. 17)

   4) Just as Astronomy Succeeded Astrology, the Discovery of Intellectual Processes in Machines Should Lead to a Science, Eventually

   Just as astronomy succeeded astrology, following Kepler's discovery of planetary regularities, the discoveries of these many principles in empirical explorations on intellectual processes in machines should lead to a science, eventually. (Minsky & Papert, 1973, p. 11)

   5) Problems in Machine Intelligence Arise Because Things Obvious to Any Person Are Not Represented in the Program

   Many problems arise in experiments on machine intelligence because things obvious to any person are not represented in any program. One can pull with a string, but one cannot push with one.... Simple facts like these caused serious problems when Charniak attempted to extend Bobrow's "Student" program to more realistic applications, and they have not been faced up to until now. (Minsky & Papert, 1973, p. 77)

   6) The Meaning of a Symbolic Description

   What do we mean by [a symbolic] "description"? We do not mean to suggest that our descriptions must be made of strings of ordinary language words (although they might be). The simplest kind of description is a structure in which some features of a situation are represented by single ("primitive") symbols, and relations between those features are represented by other symbols-or by other features of the way the description is put together. (Minsky & Papert, 1973, p. 11)

   7) The Principle of Artificial Intelligence

   [AI is] the use of computer programs and programming techniques to cast light on the principles of intelligence in general and human thought in particular. (Boden, 1977, p. 5)

   8) Artificial Intelligence Recognizes the Need for Knowledge in Its Systems

   The word you look for and hardly ever see in the early AI literature is the word knowledge. They didn't believe you have to know anything, you could always rework it all.... In fact 1967 is the turning point in my mind when there was enough feeling that the old ideas of general principles had to go.... I came up with an argument for what I called the primacy of expertise, and at the time I called the other guys the generalists. (Moses, quoted in McCorduck, 1979, pp. 228-229)

   9) Artificial Intelligence Is Psychology in a Particularly Pure and Abstract Form

   The basic idea of cognitive science is that intelligent beings are semantic engines-in other words, automatic formal systems with interpretations under which they consistently make sense. We can now see why this includes psychology and artificial intelligence on a more or less equal footing: people and intelligent computers (if and when there are any) turn out to be merely different manifestations of the same underlying phenomenon. Moreover, with universal hardware, any semantic engine can in principle be formally imitated by a computer if only the right program can be found. And that will guarantee semantic imitation as well, since (given the appropriate formal behavior) the semantics is "taking care of itself" anyway. Thus we also see why, from this perspective, artificial intelligence can be regarded as psychology in a particularly pure and abstract form. The same fundamental structures are under investigation, but in AI, all the relevant parameters are under direct experimental control (in the programming), without any messy physiology or ethics to get in the way. (Haugeland, 1981b, p. 31)

    10) There Are Many Types of Reasoning

   There are many different kinds of reasoning one might imagine:

    Formal reasoning involves the syntactic manipulation of data structures to deduce new ones following prespecified rules of inference. Mathematical logic is the archetypical formal representation. Procedural reasoning uses simulation to answer questions and solve problems. When we use a program to answer What is the sum of 3 and 4? it uses, or "runs," a procedural model of arithmetic. Reasoning by analogy seems to be a very natural mode of thought for humans but, so far, difficult to accomplish in AI programs. The idea is that when you ask the question Can robins fly? the system might reason that "robins are like sparrows, and I know that sparrows can fly, so robins probably can fly."

    Generalization and abstraction are also natural reasoning process for humans that are difficult to pin down well enough to implement in a program. If one knows that Robins have wings, that Sparrows have wings, and that Blue jays have wings, eventually one will believe that All birds have wings. This capability may be at the core of most human learning, but it has not yet become a useful technique in AI.... Meta- level reasoning is demonstrated by the way one answers the question What is Paul Newman's telephone number? You might reason that "if I knew Paul Newman's number, I would know that I knew it, because it is a notable fact." This involves using "knowledge about what you know," in particular, about the extent of your knowledge and about the importance of certain facts. Recent research in psychology and AI indicates that meta-level reasoning may play a central role in human cognitive processing. (Barr & Feigenbaum, 1981, pp. 146-147)

    11) Programs Are Beginning to Do Things That Critics Have Asserted to Be Impossible

   Suffice it to say that programs already exist that can do things-or, at the very least, appear to be beginning to do things-which ill-informed critics have asserted a priori to be impossible. Examples include: perceiving in a holistic as opposed to an atomistic way; using language creatively; translating sensibly from one language to another by way of a language-neutral semantic representation; planning acts in a broad and sketchy fashion, the details being decided only in execution; distinguishing between different species of emotional reaction according to the psychological context of the subject. (Boden, 1981, p. 33)

    12) The Synthesis of Man and Machine

   Can the synthesis of Man and Machine ever be stable, or will the purely organic component become such a hindrance that it has to be discarded? If this eventually happens-and I have... good reasons for thinking that it must-we have nothing to regret and certainly nothing to fear. (Clarke, 1984, p. 243)

    13) The Thesis of Good Old-Fashioned Artificial Intelligence (GOFAI)

   The thesis of GOFAI... is not that the processes underlying intelligence can be described symbolically... but that they are symbolic. (Haugeland, 1985, p. 113)

    14) Artificial Intelligence Provides a Useful Approach to Psychological and Psychiatric Theory Formation

   It is all very well formulating psychological and psychiatric theories verbally but, when using natural language (even technical jargon), it is difficult to recognise when a theory is complete; oversights are all too easily made, gaps too readily left. This is a point which is generally recognised to be true and it is for precisely this reason that the behavioural sciences attempt to follow the natural sciences in using "classical" mathematics as a more rigorous descriptive language. However, it is an unfortunate fact that, with a few notable exceptions, there has been a marked lack of success in this application. It is my belief that a different approach-a different mathematics-is needed, and that AI provides just this approach. (Hand, quoted in Hand, 1985, pp. 6-7)

    15) Four Kinds of Artificial Intelligence

   We might distinguish among four kinds of AI.

   ♦ Nonpsychological AI

   Research of this kind involves building and programming computers to perform tasks which, to paraphrase Marvin Minsky, would require intelligence if they were done by us. Researchers in nonpsychological AI make no claims whatsoever about the psychological realism of their programs or the devices they build, that is, about whether or not computers perform tasks as humans do.

   ♦ Weak Psychological AI

   Research here is guided by the view that the computer is a useful tool in the study of mind. In particular, we can write computer programs or build devices that simulate alleged psychological processes in humans and then test our predictions about how the alleged processes work. We can weave these programs and devices together with other programs and devices that simulate different alleged mental processes and thereby test the degree to which the AI system as a whole simulates human mentality. According to weak psychological AI, working with computer models is a way of refining and testing hypotheses about processes that are allegedly realized in human minds.

   ♦ Strong Psychological AI

... According to this view, our minds are computers and therefore can be duplicated by other computers. Sherry Turkle writes that the "real ambition is of mythic proportions, making a general purpose intelligence, a mind." (Turkle, 1984, p. 240) The authors of a major text announce that "the ultimate goal of AI research is to build a person or, more humbly, an animal." (Charniak & McDermott, 1985, p. 7)

   ♦ Suprapsychological AI

   Research in this field, like strong psychological AI, takes seriously the functionalist view that mentality can be realized in many different types of physical devices. Suprapsychological AI, however, accuses strong psychological AI of being chauvinisticof being only interested in human intelligence! Suprapsychological AI claims to be interested in all the conceivable ways intelligence can be realized. (Flanagan, 1991, pp. 241-242)

    16) Determination of Relevance of Rules in Particular Contexts

   Even if the [rules] were stored in a context-free form the computer still couldn't use them. To do that the computer requires rules enabling it to draw on just those [ rules] which are relevant in each particular context. Determination of relevance will have to be based on further facts and rules, but the question will again arise as to which facts and rules are relevant for making each particular determination. One could always invoke further facts and rules to answer this question, but of course these must be only the relevant ones. And so it goes. It seems that AI workers will never be able to get started here unless they can settle the problem of relevance beforehand by cataloguing types of context and listing just those facts which are relevant in each. (Dreyfus & Dreyfus, 1986, p. 80)

    17) Form and Content Are Not Fundamentally Different

   Perhaps the single most important idea to artificial intelligence is that there is no fundamental difference between form and content, that meaning can be captured in a set of symbols such as a semantic net. (G. Johnson, 1986, p. 250)

    18) The Assumption That the Mind Is a Formal System

   Artificial intelligence is based on the assumption that the mind can be described as some kind of formal system manipulating symbols that stand for things in the world. Thus it doesn't matter what the brain is made of, or what it uses for tokens in the great game of thinking. Using an equivalent set of tokens and rules, we can do thinking with a digital computer, just as we can play chess using cups, salt and pepper shakers, knives, forks, and spoons. Using the right software, one system (the mind) can be mapped into the other (the computer). (G. Johnson, 1986, p. 250)

    19) A Statement of the Primary and Secondary Purposes of Artificial Intelligence

   The primary goal of Artificial Intelligence is to make machines smarter.

   The secondary goals of Artificial Intelligence are to understand what intelligence is (the Nobel laureate purpose) and to make machines more useful (the entrepreneurial purpose). (Winston, 1987, p. 1)

    20) Mathematical Logic Provides the Basis for Theory in AI

   The theoretical ideas of older branches of engineering are captured in the language of mathematics. We contend that mathematical logic provides the basis for theory in AI. Although many computer scientists already count logic as fundamental to computer science in general, we put forward an even stronger form of the logic-is-important argument....

   AI deals mainly with the problem of representing and using declarative (as opposed to procedural) knowledge. Declarative knowledge is the kind that is expressed as sentences, and AI needs a language in which to state these sentences. Because the languages in which this knowledge usually is originally captured (natural languages such as English) are not suitable for computer representations, some other language with the appropriate properties must be used. It turns out, we think, that the appropriate properties include at least those that have been uppermost in the minds of logicians in their development of logical languages such as the predicate calculus. Thus, we think that any language for expressing knowledge in AI systems must be at least as expressive as the first-order predicate calculus. (Genesereth & Nilsson, 1987, p. viii)

    21) Perceptual Structures Can Be Represented as Lists of Elementary Propositions

   In artificial intelligence studies, perceptual structures are represented as assemblages of description lists, the elementary components of which are propositions asserting that certain relations hold among elements. (Chase & Simon, 1988, p. 490)

    22) Definitions of Artificial Intelligence

   Artificial intelligence (AI) is sometimes defined as the study of how to build and/or program computers to enable them to do the sorts of things that minds can do. Some of these things are commonly regarded as requiring intelligence: offering a medical diagnosis and/or prescription, giving legal or scientific advice, proving theorems in logic or mathematics. Others are not, because they can be done by all normal adults irrespective of educational background (and sometimes by non-human animals too), and typically involve no conscious control: seeing things in sunlight and shadows, finding a path through cluttered terrain, fitting pegs into holes, speaking one's own native tongue, and using one's common sense. Because it covers AI research dealing with both these classes of mental capacity, this definition is preferable to one describing AI as making computers do "things that would require intelligence if done by people." However, it presupposes that computers could do what minds can do, that they might really diagnose, advise, infer, and understand. One could avoid this problematic assumption (and also side-step questions about whether computers do things in the same way as we do) by defining AI instead as "the development of computers whose observable performance has features which in humans we would attribute to mental processes." This bland characterization would be acceptable to some AI workers, especially amongst those focusing on the production of technological tools for commercial purposes. But many others would favour a more controversial definition, seeing AI as the science of intelligence in general-or, more accurately, as the intellectual core of cognitive science. As such, its goal is to provide a systematic theory that can explain (and perhaps enable us to replicate) both the general categories of intentionality and the diverse psychological capacities grounded in them. (Boden, 1990b, pp. 1-2)

    23) The Computer Can Not Be a Model of the Mind

   Because the ability to store data somewhat corresponds to what we call memory in human beings, and because the ability to follow logical procedures somewhat corresponds to what we call reasoning in human beings, many members of the cult have concluded that what computers do somewhat corresponds to what we call thinking. It is no great difficulty to persuade the general public of that conclusion since computers process data very fast in small spaces well below the level of visibility; they do not look like other machines when they are at work. They seem to be running along as smoothly and silently as the brain does when it remembers and reasons and thinks. On the other hand, those who design and build computers know exactly how the machines are working down in the hidden depths of their semiconductors. Computers can be taken apart, scrutinized, and put back together. Their activities can be tracked, analyzed, measured, and thus clearly understood-which is far from possible with the brain. This gives rise to the tempting assumption on the part of the builders and designers that computers can tell us something about brains, indeed, that the computer can serve as a model of the mind, which then comes to be seen as some manner of information processing machine, and possibly not as good at the job as the machine. (Roszak, 1994, pp. xiv-xv)

    24) Computers Will Not Always Be Inferior to Human Brains

   The inner workings of the human mind are far more intricate than the most complicated systems of modern technology. Researchers in the field of artificial intelligence have been attempting to develop programs that will enable computers to display intelligent behavior. Although this field has been an active one for more than thirty-five years and has had many notable successes, AI researchers still do not know how to create a program that matches human intelligence. No existing program can recall facts, solve problems, reason, learn, and process language with human facility. This lack of success has occurred not because computers are inferior to human brains but rather because we do not yet know in sufficient detail how intelligence is organized in the brain. (Anderson, 1995, p. 2)

Reichenbach, Georg Friedrich von

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Photography, film and optics, Public utilities

[br]

b. 24 August 1772 Durlach, Baden, Germany

d. 21 May 1826 Munich, Germany

[br]

German engineer.

[br]

While he was attending the Military School at Mannheim, Reichenbach drew attention to himself due to the mathematical instruments that he had designed. On the recommendation of Count Rumford in Munich, the Bavarian government financed a two-year stay in Britain so that Reichenbach could become acquainted with modern mechanical engineering. He returned to Mannheim in 1793, and during the Napoleonic Wars he was involved in the manufacture of arms. In Munich, where he was in the service of the Bavarian state from 1796, he started producing precision instruments in his own time. His basic invention was the design of a dividing machine for circles, produced at the end of the eighteenth century. The astronomic and geodetic instruments he produced excelled all the others for their precision. His telescopes in particular, being perfect in use and of solid construction, soon brought him an international reputation. They were manufactured at the MathematicMechanical Institute, which he had jointly founded with Joseph Utzschneider and Joseph Liebherr in 1804 and which became a renowned training establishment. The glasses and lenses were produced by Joseph Fraunhofer who joined the company in 1807.

In the same year he was put in charge of the technical reorganization of the salt-works at Reichenhall. After he had finished the brine-transport line from Reichenhall to Traunstein in 1810, he started on the one from Berchtesgaden to Reichenhall which was an extremely difficult task because of the mountainous area that had to be crossed. As water was the only source of energy available he decided to use water-column engines for pumping the brine in the pipes of both lines. Such devices had been in use for pumping purposes in different mining areas since the middle of the eighteenth century. Reichenbach knew about the one constructed by Joseph Karl Hell in Slovakia, which in principle had just been a simple piston-pump driven by water which did not work satisfactorily. Instead he constructed a really effective double-action water-column engine; this was a short time after Richard Trevithick had constructed a similar machine in England. For the second line he improved the system and built a single-action pump. All the parts of it were made of metal, which made them easy to produce, and the pumps proved to be extremely reliable, working for over 100 years.

At the official opening of the line in 1817 the Bavarian king rewarded him generously. He remained in the state's service, becoming head of the department for roads and waterways in 1820, and he contributed to the development of Bavarian industry as well as the public infrastructure in many ways as a result of his mechanical skill and his innovative engineering mind.

[br]

Further Reading

Bauernfeind, "Georg von Reichenbach" Allgemeine deutsche Biographie 27:656–67 (a reliable nineteenth-century account).

W.Dyck, 1912, Georg v. Reichenbach, Munich.

K.Matschoss, 1941, Grosse Ingenieure, Munich and Berlin, 3rd edn. 121–32 (a concise description of his achievements in the development of optical instruments and engineering).

WK

Industriebetriebslehre

Industriebetriebslehre f IND industrial engineering

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f < Ind> industrial engineering

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Industriebetriebslehre
industrial organization (Br.);
• Industriebezirk industrial area (district), manufacturing district;
• Industriebranche Steine und Erden depletion group;
• Industriechemie chemical engineering;
• Industriedemontage industrial dismantling, dismantling of industries;
• Industriediamant industrial diamond;
• Industriedunst smog;
• Industriedurchschnitt industrial average;
• gesamter Industriedurchschnitt all-industrial average;
• Industrieemissionen industrial issues, (Verunreinigung) nuisance;
• Industrieemission von toxischen Substanzen industrial emission of toxic substances;
• Industrieentwicklungsprogramm industrial development program(me);
• Industrieerfahrung industrial experience;
• Industrieerfahrung mit dem Universitätsleben verbinden to blend industrial experience with academic life;
• Industrieerwartungsland industrial estate (Br.);
• Industrieerzeugerpreise industrial producer prices;
• Industrieerzeugnis[se] industrial product, manufactured article[s] (goods), manufacture;
• Industrieerzeugung industrial output (production), factory production;
• Industriefinanzierung financing of industry;
• mittel- und langfristiges Industriefinanzierungsgeschäft medium and long-term industrial financing;
• Industriefinanzierungsgesellschaft industrial finance (loan) company;
• Industriefirma industrial firm (undertaking, enterprise);
• Industrieförderung encouragement (promotion) of industry;
• Industrieförderungsgesellschaft industrial development company;
• Industrieforschung industry (industrial) research;
• Industrieführer captain of industry;
• Industriegas producer (industrial) gas;
• Industriegebiet industrial area (community), economic territory, manufacturing district, Black Country (Br.);
• für Industriegebiete vorgesehen sein to be zoned for manufacturing enterprises (US);
• Industriegefüge industrial structure;
• Industriegegend industrial section (area), manufacturing district, economic district (quarter);
• Industriegelände industrial site (park, estate, Br.);
• Industriegesellschaft industrial society;
• Industriegesetzgebung factory acts (legislation);
• Industriegewerkschaft industrial (blue-collar, US) union;
• Industriegewerkschaft Bau, Steine, Erden [etwa] builders’ and construction workers’ union;
• Industriegewerkschaftsverband Congress of Industrial Organizations (CIO);
• Industriegigant titan of industry, industry giant, business titan;
• Industriegleis industrial track;
• Industriegrundstück industrial property (land), factory site;
• Industriegrundstoffe basic industrial materials;
• Industriegüter industrial goods;
• Industriegüterpreise prices of industrial goods;
• Industrieindex industrial index;
• Industrieingenieur industrial engineer;
• Industrieinvestitionen industrial investments;
• Industrie- und Handelskammer [der USA] [United States] Chamber of Commerce (US);
• Industriekapazität industrial capacity;
• Industriekapital industrial capital;
• Industriekapitän captain of industry, tycoon (US);
• Industriekartell industrial cartel;
• Industrieklassifikation industrial classification;
• Industrieklub economic club (US);
• Industriekoeffizient industry ratio;
• Industriekomplex industry complex, industrial system;
• großer Industriekomplex large manufacturing outfit;
• Industriekonsortium industrial consortium;
• Industriekonzentration territorial (regional) division of labo(u)r;
• Industriekonzern industrial concern (combination, group), conglomeration, industry group;
• Industriekredit industrial credit;
• Industriekreditbank industrial bank, [etwa] Industrial and Commercial Finance Corporation Ltd. (Br.);
• Industriekreditsatz corporation bank rate (Br.);
• Industriekreise industrial circles;
• aus Industriekreisen according to industry sources;
• Industriekundschaft (Werbeagentur) industrial accounts;
• Industrielabor industrial laboratory;
• Industrieland industrial state (nation), industrialized country;
• hoch entwickeltes Industrieland advanced industrial country;
• Industrieländer advanced countries;
• Industrielieferant industry contractor;
• Industrielieferungen industrial supplies.

Rankine, William John Macquorn

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 5 July 1820 Edinburgh, Scotland

d. 1872

[br]

Scottish engineer and educator

[br]

Rankine was educated at Ayr Academy and Glasgow High School, although he appears to have learned much of his basic mathematics and physics through private study. He attended Edinburgh University and then assisted his father, who was acting as Superintendent of the Edinburgh and Dalkeith Railway. This introduction to engineering practice was followed in 1838 by his appointment as a pupil to Sir John MacNeill, and for the next four years he served under MacNeill on his Irish railway projects. While still in his early twenties, Rankine presented pioneering papers on metal fatigue and other subjects to the Institution of Civil Engineers, for which he won a prize, but he appears to have resigned from the Civils in 1857 after an argument because the Institution would not transfer his Associate Membership into full Membership. From 1844 to 1848 Rankine worked on various projects for the Caledonian Railway Company, but his interests were becoming increasingly theoretical and a series of distinguished papers for learned societies established his reputation as a leading scholar in the new science of thermodynamics. He was elected Fellow of the Royal Society in 1853. At the same time, he remained intimately involved with practical questions of applied science, in shipbuilding, marine engineering and electric telegraphy, becoming associated with the influential coterie of fellow Scots such as the Thomson brothers, Napier, Elder, and Lewis Gordon. Gordon was then the head of a large and successful engineering practice, but he was also Regius Professor of Engineering at the University of Glasgow, and when he retired from the Chair to pursue his business interests, Rankine, who had become his Assistant, was appointed in his place.

From 1855 until his premature death in 1872, Rankine built up an impressive engineering department, providing a firm theoretical basis with a series of text books that he wrote himself and most of which remained in print for many decades. Despite his quarrel with the Institution of Civil Engineers, Rankine took a keen interest in the institutional development of the engineering profession, becoming the first President of the Institution of Engineers and Shipbuilders in Scotland, which he helped to establish in 1857. Rankine campaigned vigorously for the recognition of engineering studies as a full university degree at Glasgow, and he achieved this in 1872, the year of his death. Rankine was one of the handful of mid-nineteenth century engineers who virtually created engineering as an academic discipline.

[br]

Principal Honours and Distinctions

FRS 1853. First President, Institution of Engineers and Shipbuilders in Scotland, 1857.

Bibliography

1858, Manual of Applied Mechanics.

1859, Manual of the Steam Engine and Other Prime Movers.

1862, Manual of Civil Engineering.

1869, Manual of Machinery and Millwork.

Further Reading

1873, Proceedings of the Institution of Civil Engineers 21.

J.Small, 1957, "The institution's first president", Proceedings of the Institution of Engineers and Shipbuilders in Scotland: 687–97.

H.B.Sutherland, 1972, Rankine. His Life and Times.

AB

Bollée, Ernest-Sylvain

SUBJECT AREA: Automotive engineering, Mechanical, pneumatic and hydraulic engineering

[br]

b. 19 July 1814 Clefmont (Haute-Marne), France

d. 11 September 1891 Le Mans, France

[br]

French inventor of the rotor-stator wind engine and founder of the Bollée manufacturing industry.

[br]

Ernest-Sylvain Bollée was the founder of an extensive dynasty of bellfounders based in Le Mans and in Orléans. He and his three sons, Amédée (1844–1917), Ernest-Sylvain fils (1846–1917) and Auguste (1847-?), were involved in work and patents on steam-and petrol-driven cars, on wind engines and on hydraulic rams. The presence of the Bollées' car industry in Le Mans was a factor in the establishment of the car races that are held there.

In 1868 Ernest-Sylvain Bollée père took out a patent for a wind engine, which at that time was well established in America and in England. In both these countries, variable-shuttered as well as fixed-blade wind engines were in production and patented, but the Ernest-Sylvain Bollée patent was for a type of wind engine that had not been seen before and is more akin to the water-driven turbine of the Jonval type, with its basic principle being parallel to the "rotor" and "stator". The wind drives through a fixed ring of blades on to a rotating ring that has a slightly greater number of blades. The blades of the fixed ring are curved in the opposite direction to those on the rotating blades and thus the air is directed onto the latter, causing it to rotate at a considerable speed: this is the "rotor". For greater efficiency a cuff of sheet iron can be attached to the "stator", giving a tunnel effect and driving more air at the "rotor". The head of this wind engine is turned to the wind by means of a wind-driven vane mounted in front of the blades. The wind vane adjusts the wind angle to enable the wind engine to run at a constant speed.

The fact that this wind engine was invented by the owner of a brass foundry, with all the gear trains between the wind vane and the head of the tower being of the highest-quality brass and, therefore, small in scale, lay behind its success. Also, it was of prefabricated construction, so that fixed lengths of cast-iron pillar were delivered, complete with twelve treads of cast-iron staircase fixed to the outside and wrought-iron stays. The drive from the wind engine was taken down the inside of the pillar to pumps at ground level.

Whilst the wind engines were being built for wealthy owners or communes, the work of the foundry continued. The three sons joined the family firm as partners and produced several steam-driven vehicles. These vehicles were the work of Amédée père and were l'Obéissante (1873); the Autobus (1880–3), of which some were built in Berlin under licence; the tram Bollée-Dalifol (1876); and the private car La Mancelle (1878). Another important line, in parallel with the pumping mechanism required for the wind engines, was the development of hydraulic rams, following the Montgolfier patent. In accordance with French practice, the firm was split three ways when Ernest-Sylvain Bollée père died. Amédée père inherited the car side of the business, but it is due to Amédée fils (1867– 1926) that the principal developments in car manufacture came into being. He developed the petrol-driven car after the impetus given by his grandfather, his father and his uncle Ernest-Sylvain fils. In 1887 he designed a four-stroke single-cylinder engine, although he also used engines designed by others such as Peugeot. He produced two luxurious saloon cars before putting Torpilleur on the road in 1898; this car competed in the Tour de France in 1899. Whilst designing other cars, Amédée's son Léon (1870–1913) developed the Voiturette, in 1896, and then began general manufacture of small cars on factory lines. The firm ceased work after a merger with the English firm of Morris in 1926. Auguste inherited the Eolienne or wind-engine side of the business; however, attracted to the artistic life, he sold out to Ernest Lebert in 1898 and settled in the Paris of the Impressionists. Lebert developed the wind-engine business and retained the basic "stator-rotor" form with a conventional lattice tower. He remained in Le Mans, carrying on the business of the manufacture of wind engines, pumps and hydraulic machinery, describing himself as a "Civil Engineer".

The hydraulic-ram business fell to Ernest-Sylvain fils and continued to thrive from a solid base of design and production. The foundry in Le Mans is still there but, more importantly, the bell foundry of Dominique Bollée in Saint-Jean-de-Braye in Orléans is still at work casting bells in the old way.

[br]

Further Reading

André Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.

Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).

KM

воздушный

аварийная связь с воздушным судном

air distress communication

аварийная ситуация с воздушным судном

aircraft emergency

аварийные воздушные перевозки

distress traffic

авиатрасса верхнего воздушного пространства

high-level airway

авиатрасса нижнего воздушного пространства

low-level airway

авиационный двигатель воздушного охлаждения

air-cooled engine

автоматическое выравнивание воздушного судна перед посадкой

autoflare

авторотация воздушного винта

propeller windmilling

авторотирующий воздушный винт

windmilling propeller

агентство по отправке грузов воздушным транспортом

air freight forwarder

административное воздушное судно

executive aircraft

ангар для воздушного судна

aircraft shed

аренда воздушного судна

aircraft lease

аренда воздушного судна без экипажа

1. aircraft dry lease

2. aircraft drylease аренда воздушного судна вместе с экипажем

aircraft wet lease

арендатор воздушного судна

lessee of an aircraft

арендованное воздушное судно

leased aircraft

арендовать воздушное судно

lease an aircraft

Ассоциация воздушного транспорта США

air Transport

Ассоциация воздушных перевозчиков

National Air Carrier

аудиовизуальная система имитации воздушного движения

air traffic audio simulation system

(для тренажеров) аэродинамически сбалансированное воздушное судно

airodynamically balanced aircraft

аэродром для реактивных воздушных судов

jet aerodrome

аэродром местных воздушных линий

domestic aerodrome

аэродромный обогреватель воздушного судна

aircraft heater

аэродром совместного базирования гражданского и военных воздушных судов

joint civil and military aerodrome

аэронавигационная карта воздушных подходов

aeronautical approach chart

аэропорт высокой плотности воздушного движения

high-density airport

база ремонта воздушных судов

aircraft repair depot

балансировать воздушное судно

1. balance the aircraft

2. trim the aircraft балансировать воздушный винт

balance the propeller

балансировка воздушного винта

propeller balance

балансировка воздушного судна

aircraft trim

безопасное управление воздушным судном

safe handling of an aircraft

безопасность воздушного движения

air safety

безопасный срок службы воздушного судна

aircraft safe life

бесшумное воздушное судно

quiet aircraft

биение воздушного винта

airscrew knock

борт воздушного судна

aircraft side

бортовая кухня воздушного судна

aircraft galley

бортовой регистрационный знак воздушного судна

aircraft registration mark

бригада для перегонки воздушных судов

delivery group

бригада технического обслуживания воздушных судов

aircraft maintenance team

буксировать воздушное судно хвостом вперед

push the aircraft back

буксировочный узел воздушного судна

aircraft towing point

вал воздушного винта

propeller shaft

вводить воздушное судно в крен

roll in the aircraft

ведомость дефектов воздушного судна

aircraft defects list

вектор воздушной скорости

airspeed vector

верхнее воздушное пространство

1. upper air

2. upper air area весовая категория воздушного судна

aircraft weight category

весовая классификация воздушного судна

aircraft breakdown

взаимодействие воздушных потоков

air flow interaction

вид воздушного судна

aircraft category

винтовое воздушное судно

prop-driven aircraft

владелец сертификата на воздушное судно

aircraft certificate holder

влияние спутной струи от воздушного винта

slipstream effect

влиять на состояние воздушного судна

effect on an aircraft

вместимость воздушного судна

aircraft capacity

вне воздушной трассы

off-airway

внезапное отклонение воздушного судна

aircraft sudden swerve

внимание, отвлеченное от управления воздушным судном

diverted attention from operation

возвращать воздушное судно

bring the aircraft back

воздушная болезнь

airsickness

воздушная волна

air wave

воздушная заслонка

air flap

воздушная зона

air side

воздушная линия

air line

воздушная масса

air mass

воздушная обстановка

air situation

воздушная обстановка в зоне аэродрома

aerodrome air picture

воздушная опора

air bearing

воздушная перевозка

1. air carriage

2. air conveyance 3. air movement 4. skylift воздушная перевозка за плату

air operation for remuneration

воздушная перевозка по найму

air operation for hire

воздушная перевозка типа инклюзив тур

inclusive tour

воздушная подушка

air cushion

воздушная подушка у земли

ground cushion

воздушная почта

air mail

воздушная пробка

air lock

воздушная система запуска двигателей

air starting system

воздушная скорость

airspeed

воздушная смесительная камера

air-mixing chamber

воздушная трасса

1. airway

2. air track 3. skyway 4. air lane 5. air route 6. air path воздушная турбина

air turbine

воздушная турбулентность

air turbulence

воздушная ударная волна

air blast

воздушная цель

air target

воздушная яма

air pocket

воздушная яма на пути полета

in flight bump

воздушное барражирование

air loitering

воздушное движение

1. air traffic

2. traffic flow воздушное охлаждение

air cooling

воздушное пиратство

air piracy

воздушное право

air law

воздушное пространство

1. airspace

2. midair воздушное пространство с запретом визуальных полетов

visual exempted airspace

воздушное путешествие

1. air trip

2. air travel воздушное сообщение

air communication

воздушное судно

1. aircraft

2. ship воздушное судно без экипажа

bare hull

воздушное судно большой вместимости

high-capacity aircraft

воздушное судно большой дальности полетов

long-distance aircraft

воздушное судно вертикального взлета и посадки

vertical takeoff and landing aircraft

воздушное судно в зоне ожидания

holding aircraft

воздушное судно в полете

1. in-flight aircraft

2. making way aircraft 3. aircraft on flight воздушное судно вспомогательной авиалинии

feeder aircraft

воздушное судно, выведенное из строя

disabled aircraft

воздушное судно государственной принадлежности

state aircraft

воздушное судно, готовое к полету

under way aircraft

воздушное судно гражданской авиации

civil aircraft

воздушное судно для местный авиалиний

short-range aircraft

воздушное судно для местных авиалиний

short-haul transport

воздушное судно для обслуживания местных авиалиний

feederliner

воздушное судно для патрулирования лесных массивов

forest patrol aircraft

воздушное судно для полетов на большой высоте

high-altitude aircraft

воздушное судно для смешанных перевозок

combination aircraft

воздушное судно, дозаправляемое в полете

receiver aircraft

воздушное судно, загруженное не по установленной схеме

improperly loaded aircraft

воздушное судно, занесенное в реестр

aircraft on register

воздушное судно, идущее впереди

preceeding aircraft

воздушное судно, идущее следом

following aircraft

воздушное судно, имеющее разрешение на полет

authorized aircraft

воздушное судно, исключенное из реестра

abandoned aircraft

воздушное судно короткого взлета и посадки

short takeoff and landing aircraft

воздушное судно, летящее курсом на восток

eastbound aircraft

воздушное судно местных воздушных линий

commuter-size aircraft

воздушное судно на подходе

in-coming aircraft

воздушное судно - нарушитель

intruder

воздушное судно, находящееся в воздухе

airborne aircraft

воздушное судно, находящееся в эксплуатации владельца

owner-operated aircraft

воздушное судно, находящееся на встречном курсе

oncoming aircraft

воздушное судно небольшой массы

light aircraft

воздушное судно, не сертифицированное по шуму

nonnoise certificate aircraft

воздушное судно, нуждающееся в помощи

aircraft requiring assistance

воздушное судно обнаружения

spotter

(цели) воздушное судно общего назначения

general-purpose aircraft

воздушное судно обычной схемы взлета и посадки

conventional takeoff and landing aircraft

воздушное судно, оставшееся на плаву

stayed afloat aircraft

воздушное судно, отвечающее современным требованиям

today's aircraft

воздушное судно первого поколения

first-generation aircraft

воздушное судно, получившее разрешение

cleared aircraft

воздушное судно по обмену

interchanged aircraft

воздушное судно, прибывающее в конечный аэропорт

terminating aircraft

воздушное судно, пропавшее без вести

aircraft in missing

воздушное судно с верхним расположением крыла

high-wing aircraft

воздушное судно с газотурбинными двигателями

turbine-engined aircraft

воздушное судно с двумя двигателями

twin-engined aircraft

воздушное судно с двумя и более двигателями

multiengined aircraft

воздушное судно с неподвижным крылом

fixed-wing aircraft

воздушное судно с несущим винтом

rotary-wing aircraft

воздушное судно с несущим фюзеляжем

lift-fuselage aircraft

воздушное судно с низким расположением крыла

low-wing aircraft

воздушное судно, совершающее заход на посадку

approaching aircraft

воздушное судно с одним двигателем

1. one-engined aircraft

2. single-engined aircraft воздушное судно с одним пилотом

single-pilot aircraft

воздушное судно, создающее опасность столкновения

intruding aircraft

воздушное судно со складывающимся крылом

folding wing aircraft

воздушное судно со средним расположением крыла

mid-wing aircraft

воздушное судно с поршневым двигателем

piston-engined aircraft

воздушное судно с треугольным крылом

delta-wing aircraft

воздушное судно с турбовинтовыми двигателями

turboprop aircraft

воздушное судно с турбореактивными двигателями

turbojet aircraft

воздушное судно с убранной механизацией крыла

clean aircraft

воздушное судно с удлиненным фюзеляжем

stretched aircraft

воздушное судно с узким фюзеляжем

narrow-body aircraft

воздушное судно с фюзеляжем типовой схемы

regular-body aircraft

воздушное судно схемы летающее крыло

1. all-wing aircraft

2. tailless aircraft воздушное судно схемы утка

canard aircraft

воздушное судно считается пропавшим без вести

aircraft is considered to be missing

воздушное судно с экипажем из нескольких человек

multicrew aircraft

воздушное судно, терпящее бедствие

aircraft in distress

воздушное судно, удовлетворяющее требованиям сохранения окружающей среды

environmentally attuned aircraft

воздушное судно укороченного взлета и посадки

reduced takeoff and landing aircraft

воздушное такси

air taxi

воздушное уплотнение

air seal

воздушное уплотнение опоры

bearing air seal

воздушные винты противоположного вращения

contrarotating propellers

воздушные ворота

air gate

воздушные перевозки

airlift

воздушные перевозки большой протяженности

long-haul service

воздушные перевозки вертолетом

rotorcraft operations

воздушные перевозки малой протяженности

short-haul service

воздушные перевозки с большим количеством промежуточных остановок

multistop service

воздушные перевозки средней протяженности

medium-haul service

воздушные перевозки типа инклюзив тур

inclusive tour traffic

воздушный буксир

aerotow

воздушный винт

1. airscrew

2. prop 3. propeller воздушный винт во флюгерном положении

feathered propeller

воздушный винт двусторонней схемы

doubleacting propeller

воздушный винт изменяемого шага

1. adjustable-pitch propeller

2. variable pitch propeller 3. controllable propeller воздушный винт левого вращения

left-handed propeller

воздушный винт на режиме малого газа

idling propeller

воздушный винт постоянного числа оборотов

constant-speed propeller

воздушный винт правого вращения

right-handed propeller

воздушный винт прямой тяги

direct drive propeller

воздушный винт с автоматически изменяемым шагом

automatic pitch propeller

воздушный винт с автоматической регулировкой

automatically controllable propeller

воздушный винт с большим шагом

high-pitch propeller

воздушный винт с гидравлическим управлением шага

hydraulic propeller

воздушный винт фиксированного шага

1. constant-pitch propeller

2. fixed-pitch propeller воздушный дроссель

throttle air

воздушный клапан

air valve

воздушный кодекс

air codes

Воздушный кодекс

Air laws regulations

воздушный коллектор

1. air manifold

2. air manifold pipe 3. air collector 4. pneumatic manifold воздушный коридор

air corridor

воздушный лайнер

airliner

воздушный перевозчик

air carrier

воздушный поток

1. airflow

2. airstream 3. air flow воздушный радиатор

air cooler

воздушный редуктор

air pressure valve

воздушный стартер

air starter

воздушный тракт

air flow duct

воздушный транспорт

air transport

воздушный участок

airborne part

воздушный участок траектории

airborne path

воздушный фильтр

air filter

воздушный флот

air fleet

возмущение воздушного потока

air distortion

восстанавливать воздушное судно

restore an aircraft

восходящий воздушный поток

anabatic wind

восходящий порыв воздушной массы

air-up gust

ВПП для эксплуатации любых типов воздушных судов

all-service runway

вращать воздушный винт

drive a propeller

вредное воздействие шума от воздушных судов

aircraft noise pollution

время прекращения действия ограничения на воздушное движение

traffic release time

всепогодное воздушное судно

all-weather aircraft

вспомогательная бортовая система воздушного судна

associated aircraft system

втулка воздушного винта

1. propeller hub

2. airscrew hub 3. airscrew boss входное воздушное устройство

air inlet section

(двигателя) вывешивать воздушное судно

lift an aircraft on

вывешивать воздушное судно на подъемниках

jack an aircraft

выводить воздушное судно из крена

1. bring the aircraft out

2. roll out the aircraft выводить воздушное судно из сваливания на крыло

unstall the aircraft

выводить воздушное судно на заданный курс

put the aircraft on the course

выводить воздушный винт из флюгерного положения

unfeather the propeller

выдерживать воздушное судно

keep the aircraft on

выдерживать воздушное судно на заданном курсе

hold the aircraft on the heading

вылетающее воздушное судно

1. departing aircraft

2. originating aircraft 3. outbound aircraft 4. outward aircraft вынужденная посадка воздушного судна на воду

aircraft ditching

выполнять работу на воздушном судне

work on the aircraft

выполнять этап пробега воздушного судна

roll on the aircraft

выравнивать воздушное судно

1. ease the aircraft on

2. level the aircraft out выруливать воздушное судно

lead out the aircraft

выруливать воздушное судно на исполнительный старт

line up the aircraft

высотное воздушное пространство

specified upper-air layer

высотный воздушный винт

altitude propeller

выставка технического оборудования для обслуживания воздушных судов

aircraft maintenance engineering exhibition

вычислитель воздушной скорости

air-speed computer

вычислитель воздушных сигналов

air data computer

гарантийный срок воздушного судна

aircraft warranty

герметизированное воздушное судно

pressurized aircraft

герметичность воздушного судна

aircraft tightness

гидравлическое управление шагом воздушного винта

hydraulic propeller pitch control

гидровариант воздушного судна

sea aircraft

гидроподъемник для воздушного судна

aircraft hydraulic jack

гиперзвуковое воздушное судно

hypersonic aircraft

гироскоп с воздушной опорой осей

air bearing gyroscope

Главное агентство воздушных сообщений

Central Agency of Air Service

государственная система организации воздушного пространства

national airspace system

государственный опознавательный знак воздушного судна

aircraft nationality mark

государство - изготовитель воздушного судна

state of aircraft manufacture

государство - поставщик воздушного судна

aircraft provider state

государство регистрации воздушного судна

aircraft registry state

государство - эксплуатант воздушного судна

aircraft user state

готовность воздушного судна

aircraft readiness

гражданский воздушный транспорт

civil air transport

граница зоны управления воздушным движением

air traffic control boundary

график воздушного путешествия

air travel plan

график движения воздушного транспорта

air transport movement table

груз для воздушной перевозки

air cargo

грузовое воздушное судно

1. all-cargo aircraft

2. air freighter 3. freight aircraft грузовое воздушное судно с откидной носовой частью

bow-loader

грузопассажирское воздушное судно

convertible aircraft

груз, перевозимый воздушным судном

aircraft freight

группа прогнозирования воздушного движения

traffic forecast group

давать воздушному судну право

enable the aircraft to

давать разрешение воздушному судну

clear the aircraft

дальность полета воздушного судна

aircraft range

данные воздушных перевозок

traffic summary

данные о результатах испытаний воздушного судна

aircraft test data

дата обнаружения пропавшего воздушного судна

aircraft recovery date

датчик воздушной скорости

1. airspeed sensor

2. airspeed transmitter датчик воздушных сигналов

air-data sensor

движение воздушного судна

aircraft movement

двухпалубное воздушное судно

double-decker aircraft

двухфюзеляжное воздушное судно

twin-fuselage aircraft

действующая воздушная трасса

effective air path

держать воздушное судно готовым

maintain the aircraft at readiness to

держаться на безопасном расстоянии от воздушного судна

keep clear of the aircraft

деформация конструкции воздушного судна

aircraft structural deformation

диаграмма воздушных потоков

air-flow pattern

диспетчер воздушного движения

flight dispatcher

диспетчерский центр управления воздушным движением

air traffic control center

диспетчерский центр управления потоком воздушного движения

flow control center

диспетчерское обслуживание воздушного пространства

air control

диспетчер службы управления воздушным движением

air traffic controller

дисплей индикации воздушной обстановки

air situation display

дистанционное управление воздушным судном

flight monitoring

дозвуковое воздушное судно

subsonic aircraft

донесение о состоянии парка воздушных судов

aircraft status report

допускать воздушное судно к дальнейшей эксплуатации

1. consider an aircraft serviceable

2. return the aircraft to service допуск на массу воздушного судна

aircraft weight tolerance

допуск на размеры воздушного судна

aircraft dimension tolerance

дорабатывать конструкцию воздушного судна

after an aircraft

доработка воздушного судна

aircraft retrofit

доход на единицу воздушной перевозки

revenue per traffic unit

Европейская группа прогнозирования воздушного движения

European air traffic forecast Group

единица воздушной перевозки

traffic unit

завихрение воздушной массы

whirlwind

загруженное воздушное судно

laden aircraft

загрузка воздушного судна

aircraft lading

заземление воздушного судна

aircraft earthing

заказчик воздушного судна

aircraft customer

закрытый воздушный винт

shrouded propeller

замена парка воздушных судов

fleet updating

заменять воздушное судно

substitute the aircraft

заменять оборудование воздушного судна

reequip an aircraft

заносить воздушное судно в реестр

enter the aircraft

запасные части для воздушного судна

aircraft spare part

запас прочности воздушного судна

aircraft reserve factor

запас топлива воздушного судна

aircraft fuel quantity

запас управляемости воздушного судна

aircraft control margin

запускать воздушное судно в производство

put the aircraft into production

зарегистрированное воздушное пространство

specified airspace

зарезервированное воздушное пространство

reserved airspace

заруливать воздушное судно

lead in the aircraft

заруливать на место стоянки воздушного судна

enter the aircraft stand

засветка воздушного судна

aircraft flash

засекать воздушное судно

plot the aircraft

затормаживать воздушный поток

bring to rest air

зафрахтованное воздушное судно

chartered aircraft

зачехлять воздушное судно

cover an aircraft with

защита воздушного судна от угона

aircraft hijack protection

звукоизоляция воздушного судна

aircraft sound proofing

зона аэродромного управления воздушным движением

aerodrome traffic control zone

зона воздушного барражирования

air patrol zone

зона воздушного движения

traffic zone

зона воздушного пространства с особым режимом полета

airspace restricted area

зона движения воздушных судов

aerodrome movement area

зона интенсивного воздушного движения

congested area

зона управления воздушным движением

air traffic control area

износ воздушного судна

ageing aircraft

износостойкий воздушный подшипник

maintenance-free air bearing

индикатор наземного движения воздушных судов

aircraft surface movement indicator

индикаторная воздушная скорость

1. rectified airspeed

2. calibrate airspeed индикация воздушных целей

air target indication

инженер по техническому обслуживанию воздушных судов

aircraft maintenance engineer

инструкция по загрузке воздушного судна

aircraft loading instruction

инструкция по консервации и хранению воздушного судна

aircraft storage instruction

инструкция по эксплуатации воздушного судна

aircraft operating instruction

интенсивное воздушное движение

high density air traffic

интенсивное регулярное воздушное сообщение

airbridge

интенсивность воздушного движения

1. traffic flow rate

2. air-traffic intensity информация по воздушной трассе

airway information

исправленная воздушная скорость

corrected airspeed

испытание воздушного судна в термобарокамере

aircraft environmental test

испытания воздушного судна на перегрузки

aircraft acceleration tests

испытания воздушного судна на переменные нагрузки

aircraft alternate-stress tests

испытательная станция воздушных судов

aircraft test station

испытываемое воздушное судно

test aircraft

исследование конфликтной ситуации в воздушном движении

air conflict search

исследовательское воздушное судно

research aircraft

истинная воздушная скорость

true airspeed

исходная масса пустого воздушного судна

basic empty weight

классификационная отметка воздушного судна

aircraft rating

классификация воздушных судов

aircraft classification

классификация воздушных судов по типам

aircraft category rating

кольцевой обтекатель воздушного винта

airscrew antidrag ring

кольцо воздушного лабиринтного уплотнения

air labyrinth seal ring

командир воздушного судна

aircraft commander

комбинированный тип воздушного судна

complex type of aircraft

комель лопасти воздушного винта

propeller blade shank

Комитет по воздушным перевозкам

1. Air Transport Committee

2. Air Transportation Board коммерческая воздушная перевозка

commercial air transportation

коммерческие воздушные перевозки

1. commercial air transport operations

2. revenue traffic коммерческий воздушный транспорт

commercial air transport

коммерческое воздушное судно

profitable aircraft

коммерческое реактивное воздушное судно

commercial jet

комплексная система контроля воздушного пространства

integrated system of airspace control

комплект оборудования для удаления воздушного судна

aircraft recovery kit

компоновка воздушного судна

aircraft layout

конвенция по управлению воздушным движением

air traffic convention

конструкция воздушного судна

1. aircraft design

2. aircraft structure консультативная информация о воздушном движении

traffic advisory information

консультативное воздушное пространство

advisory airspace

консультативное обслуживание верхнего воздушного пространства

upper advisory service

консультативное обслуживание воздушного движения

traffic advisory service

консультативное сообщение о воздушной обстановке

traffic advisory

консультативное сообщение о воздушной обстановке, регистрируемой на первичной РЛС

traffic advisory against primary radar targets

Консультативный комитет по управлению воздушным движением

Air Traffic Control Advisory Committee

контактное кольцо воздушного винта

propeller slip ring

контейнер для перевозки грузов и багажа на воздушном судне

aircraft container

контракт на воздушную перевозку

air carriage contract

контролируемое воздушное пространство

controlled airspace

контролируемое воздушное пространство предназначенное для полетов по приборам

instrument restricted airspace

контроль качества изготовления воздушных судов

aircraft production inspection

контуры воздушного судна

aircraft geometry

конфигурация базовой модели воздушного судна

baseline aircraft configuration

концевой выключатель в системе воздушного судна

aircraft limit switch

коэффициент загрузки воздушного судна

aircraft load factor

коэффициент заполнения воздушного винта

propeller solidity ratio

коэффициент использования воздушного судна

aircraft usability factor

коэффициент перегрузки воздушного судна

aircraft acceleration factor

крен воздушного судна

1. aircraft heel

2. aircraft roll 3. aircraft list крутящий момент воздушного винта

1. propeller torque

2. airscrew torque крутящий момент воздушного винта в режиме авторотации

propeller windmill torque

курс воздушного судна

1. aircraft course

2. aircraft heading ламинарность воздушного потока

flow laminarity

легкоуправляемое воздушное судно

handy aircraft

летательный аппарат на воздушной подушке

air-cushion vehicle

летать на воздушном судне

fly by an aircraft

летно-технические характеристики воздушного судна

aircraft performances

линия заруливания воздушного судна на стоянку

aircraft stand lead-in line

линия положения воздушного судна

aircraft position line

линия руления воздушного судна в зоне стоянки

aircraft stand taxilane

линия технологического разъема воздушного судна

aircraft production break line

лицензированное воздушное судно

licensed aircraft

лопасть воздушного винта

propeller blade

л управления шагом воздушного винта

propeller pitch control system

магистральная воздушная линия

highway

магистральная воздушная трасса

trunk route

макет воздушного судна

aircraft mockup

малошумное воздушное судно

low annoyance aircraft

малошумный воздушный винт

silenced tractor propeller

маневренность воздушного судна

aircraft manoeuvrability

маркировка места стоянки воздушного судна

aircraft stand marking

маршрут верхнего воздушного пространства

upper air route

маршрут вне воздушной трассы

off-airway route

маршрут нижнего воздушного пространства

low air route

маршрутный лист воздушного путешествия

air travel card

маршрут, обслуживаемый службой воздушного движения

air traffic service route

маршрут перегонки воздушных судов

air ferry route

маршрут управления воздушным движением

ATC route

масса пустого воздушного судна

1. base weight

2. empty weight 3. aircraft empty weight масса пустого воздушного судна при поставке

delivery empty weight

масса снаряженного воздушного судна без пассажиров

aircraft operational weight

мастерская капитального ремонта воздушных судов

aircraft overhaul shop

Международная ассоциация воздушного транспорта

International Air Transport

Международный совет ассоциаций владельцев воздушных судов и пилотов

International Council of Aircraft Owner and Pilot Associations

местный воздушный вихрь

local whirlwind

место загрузки воздушного судна

aircraft's loading position

место остановки воздушного судна

aircraft stand

местоположение воздушного судна

aircraft fix

место стоянки воздушного судна

1. aircraft parking place

2. aircraft's parking position место стоянки воздушного судна носом к аэровокзалу

nose-in aircraft stand

место стоянки воздушного судна хвостом к аэровокзалу

nose-out aircraft stand

место установки домкрата для подъема воздушного судна

aircraft jacking point

механизм реверса воздушного винта

propeller reverser

механизм реверса воздушного потока вентилятора

fan jet reverser

механизм реверсирования воздушного винта

airscrew reversing gear

механизм синхронизации работы воздушного винта

propeller synchronization mechanism

минимум воздушного судна

aircraft minima

минимум командира воздушного судна

pilot-in-command minima

многоцелевое воздушное судно

1. multipurpose aircraft

2. all-purpose aircraft многоцелевое реактивное воздушное судно

all-purpose jetliner

моделирование воздушного движения

art traffic simulation

модель воздушного судна

aircraft model

модифицированное воздушное судно

1. derived aircraft

2. modified aircraft моечная установка для воздушных судов

aircraft washing plant

монтировать на воздушном судне

install on the aircraft

наблюдение за воздушным пространством

air observation

наблюдение с борта воздушного судна

aircraft observation

надежность воздушного судна

aircraft reliability

направление воздушного потока

airflow direction

направлять воздушное судно против ветра

head the aircraft into wind

нарушение воздушного пространства

air intrusion

нарушение поперечной центровки воздушного судна

aircraft lateral inbalance

наставление по управлению воздушным движением

air traffic guide

негерметизированное воздушное судно

unpressurized aircraft

незаконно захваченное воздушное судно

unlawfully seized aircraft

незаконный захват воздушного судна

aircraft unlawful seizure

неконтролируемое воздушное пространство

uncontrolled airspace

неполная загрузка воздушного судна

aircraft underloading

неремонтопригодное воздушное судно

irrepairable aircraft

несбалансированное воздушное судно

out-of-balance aircraft

несбалансированный воздушный винт

out-of-balance propeller

нестандартный тип воздушного судна

inconventional type of aircraft

неуправляемость воздушного судна

aircraft uncontrollability

нивелировочная точка воздушного судна

aircraft leveling point

нижнее воздушное пространство

1. lower airspace

2. low air area нисходящий воздушный поток

1. katabatic wind

2. fall wind нисходящий порыв воздушной массы

air-down gust

носовая часть воздушного судна

aircraft nose section

обеспечение эшелонирования полетов воздушных судов

aircraft separation assurance

облегченный воздушный винт

lower pitch propeller

обледенение воздушного судна

aircraft icing

обмен воздушными судами

aircraft interchange

обнаружение и удаление воздушного судна

aircraft recovery

обозначение места остановки воздушного судна

aircraft stand identification

обозначенное воздушное пространство

designated airspace

оборот парка воздушных судов

aircraft fleet turnover

оборудование воздушных трасс

airways facilities

оборудование для обслуживания воздушного судна

aircraft servicing equipment

оборудование места стоянки воздушного судна

aircraft parking equipment

оборудовать воздушное судно

1. equip an aircraft with

2. fit an aircraft with обратное вращение воздушного винта

airscrew reverse rotation

обслуживание воздушного судна

aircraft servicing

обтекатель втулки воздушного винта

propeller dome

общий вид воздушного судна

aircraft main view

общий налет на определенном типе воздушного судна

on-type flight experience

общий поток воздушных перевозок

general traffic

объем воздушных перевозка в тоннах груза

airlift tonnage

объем воздушных перевозок

1. traffic handling capacity

2. lift capacity 3. air traffic performance ограничение воздушного пространства

airspace restriction

ограничение потока воздушного движения

flow restriction

ограничения на воздушных трассах

air rote limitations

ограниченное воздушное пространство

restricted airspace

одноместное воздушное судно

single-seater aircraft

околозвуковое воздушное судно

transonic aircraft

окружная скорость законцовки воздушного винта

propeller tip speed

окружная скорость лопасти воздушного винта

airscrew blade speed

опознавание воздушного судна

aircraft identification

опознавательный знак места стоянки воздушного судна

aircraft stand identification sign

опознавать воздушное судно

identify the aircraft

определение местонахождения воздушного судна по звездам

astrofix

определять границы воздушного пространства

to define the airspace

определять зону полета воздушного судна

space the aircraft

опытный вариант воздушного судна

1. prototype aircraft

2. preproduction aircraft 3. aircraft prototype 4. experimental aircraft орган обеспечения безопасности на воздушном транспорте

aviation security authority

осветительное оборудование воздушного судна

aircraft electrification

осевая линия воздушного судна

aircraft center line

основной вариант воздушного судна

basic aircraft

основной режим воздушного пространства

dominant air mode

основные технические данные воздушного судна

aircraft basic specifications

остановка воздушного судна

aircraft stop

ось симметрии воздушного судна

aircraft axis

отбалансированное воздушное судно

trimmed

отказ электросистемы воздушного судна

aircraft electrical failure

открытый воздушный винт

unshrouded propeller

отметка местоположения воздушного судна

aircraft position

относительная воздушная скорость

relative airspeed

отрицательная тяга воздушного винта

propeller drag

отрывать воздушное судно от земли

1. unstick the aircraft

2. make the aircraft airborne отрывать переднюю опору шасси воздушного судна

rotate the aircraft

отчет о воздушных перевозках

traffic report

очаг пожара на воздушном судне

aircraft fire point

парк воздушных судов

aircraft fleet

парковать воздушное судно

park an aircraft

парковка воздушного судна

aircraft parking

пассажирские воздушные перевозки

passenger operations

пассажирское воздушное судно

passenger aircraft

патрульное воздушное судно

patrol aircraft

пеленг воздушного судна

aircraft bearing

пеленгование воздушного судна

aircraft setting

переводить воздушное судно в горизонтальный полет

put the aircraft over

перевозимый на воздушном шаре

planeborne

перегружать воздушное движение

overflow air traffic

перегруженное воздушное судно

overweight aircraft

передача воздушного судна

aircraft blind transmission

передача информации о воздушном движении

traffic information broadcast

передача управления воздушным судном

aircraft control transfer

переоборудовать воздушное судно

convert an aircraft

пересечение воздушных трасс

intersection of air routes

перехват гражданского воздушного судна

interception of civil aircraft

персонал диспетчерской службы воздушного движения

traffic control personnel

перспектива развития парка воздушных судов

fleet development

пилотировать воздушное судно

fly the aircraft

пилотируемое воздушное судно

manned aircraft

пилот, управляющий воздушным судном

pilot on the controls

план восстановления воздушного судна

aircraft recovery plan

планетарный редуктор воздушного винта

propeller planetary gear

планирование воздушного судна по спирали

aircraft spiral glide

план развития воздушных перевозок

air plan

плотность воздушного движения

air traffic density

плотность размещения кресел на воздушном судне

aircraft seating density

площадь, ометаемая воздушным винтом

propeller disk area

пневматическая система воздушного судна

aircraft pneumatic system

поведение воздушного судна

aircraft behavior

повреждать конструкцию воздушного судна

damage aircraft structure

поврежденное воздушное судно

damaged aircraft

подача топлива в систему воздушного судна

aircraft fuel supply

подниматься на борт воздушного судна

board an aircraft

позывной код воздушного судна

aircraft call sign

поисково-спасательное воздушное судно

1. rescue aircraft

2. search and rescue aircraft поисковый радиолокатор воздушных судов

air-search radar

покидать воздушное судно

1. ball

2. abandon an aircraft покидать данное воздушное пространство

leave the airspace

поколение воздушных судов

aircraft generation

полезная нагрузка воздушного судна

aircraft useful load

полетный лист воздушного судна

aircraft flight report

полет, открывающий воздушное сообщение

inaugural flight

полет с частного воздушного судна

private flight

полеты воздушных судов

aircraft flying

полеты гражданских воздушных судов

civil air operations

полеты по воздушным трассам

airways flying

пол кабины воздушного судна

aircraft deck

полномасштабная модель воздушного судна

full-scalle aircraft

положение в воздушном пространстве

air position

поломка воздушного судна

aircraft wreck

полоса воздушных подходов

approach funnel

по оси воздушного судна

on aircraft center line

поправка на воздушную скорость

airspeed compensation

порыв воздушной массы

air gust

посадка воздушного судна

aircraft landing

посадка с неработающим воздушным винтом

dead-stick landing

поставка воздушных судов

aircraft delivery

поставлять воздушное судно

vend an aircraft

потеря воздушной цели

airmiss

потеря тяги при скольжении воздушного винта

airscrew slip loss

потеря управляемости воздушного судна

aircraft control loss

поток воздушного движения

flow of air traffic

поток воздушных перевозок через аэропорт

airport traffic flow

почтовое воздушное судно

mail-carrying aircraft

поэтапные воздушные перевозки

1. flight-stage traffic

2. traffic by flight stage правила воздушного движения

air traffic procedures

правила обслуживания воздушного движения

air traffic services procedures

правила управления воздушным движением

1. air traffic control procedures

2. traffic control regulations 3. traffic control instructions предварительный старт для нескольких воздушных судов

multiple-holding position

предел коммерческой загрузки воздушного судна

aircraft capacity range

преднамеренное отклонение воздушного судна

aircraft intentional swerve

предоставлять права на воздушные перевозки

grant traffic privileges

предполагаемое повреждение воздушного судна

suspected aircraft damage

предприятие - поставщик воздушных судов

aircraft supplier

предупреждать воздушное судно

warn the aircraft

прекращать контроль воздушного судна

release the aircraft

приборная воздушная скорость

1. basic airspeed

2. indicated airspeed приборное оборудование воздушного судна

aircraft hardware

прибор предупреждения столкновений воздушных судов

aircraft anticollision device

прибывающее воздушное судно

1. arriving aircraft

2. inbound aircraft 3. inward aircraft приводить воздушное судно в состояние летной годности

return an aircraft to flyable status

пригодность для полета на местных воздушных линиях

local availability

приемник воздушного давления

1. airspeed boom

2. airspeed head 3. Pilot tube boom 4. airspeed tube приземлять воздушное судно

land the aircraft

причина неисправности воздушного судна

cause of aircraft trouble

проводить доработку воздушного судна

aircraft embody

проворачивать воздушный винт

wind up

прогноз для верхнего воздушного пространства

upper-air forecast

продолжительность обслуживания воздушного судна

aircraft service period

производство воздушных судов

aircraft production

происшествие на территории государства регистрации воздушного судна

domestic accident

происшествие с воздушным судном

accident to an aircraft

пропавшее воздушное судно

missing aircraft

пропускная способность воздушного пространства

airspace capacity

просадка воздушного судна

aircraft mush

прямое воздушное сообщение

through air service

пункт обслуживания воздушного движения

air traffic services unit

пункт управления воздушным движением

air traffic control unit

рабочая часть лопасти воздушного винта

blade pressure side

радиозондовое наблюдение за состоянием воздушных масс

rawinsonde observation

радиолокатор управления воздушным движением

air traffic control radar

разворот воздушного судна

aircraft pivoting

разгерметизация воздушного судна

aircraft decompression

разгруженное воздушное судно

unladen aircraft

раздвоенный воздушный тракт

bifurcated air bypass duct

раздражающее воздействие шума от воздушного суд

aircraft noise annoyance

размещать в воздушном судне

fill an aircraft with

размещать воздушное судно

1. accommodate an aircraft

2. house an aircraft размещение воздушных судно на стоянке

parking arrangement

разрешение воздушному судну

clearance of the aircraft

разрешение на выполнение воздушных перевозок

operating permit

разрешение на эксплуатацию воздушной линии

route license

разрешение службы управления воздушным движением

air traffic control clearance

район воздушных трасс

air-route area

район полетов верхнего воздушного пространства

upper flight region

раскачивание воздушного судна

aircraft overswinging

распределение воздушного пространства

air spacing

(для обеспечения контроля полетов) распределение загрузки воздушного судна

aircraft load distribution

расстояние от воздушного судна до объекта на земле

air-to-ground distance

расфлюгирование воздушного судна

propeller unfeathering

расход топлива воздушным судном

aircraft fuel consumption

расходы на аренду воздушного судна

aircraft rental costs

расчетная воздушная скорость

design airspeed

расчетное положение воздушного судна

estimated position of aircraft

расчетный предел нагрузки воздушного судна

aircraft design load

реактивное воздушное судно

1. jet aircraft

2. jet 3. jetliner реактивное воздушное судно для обслуживания местных авиалиний

feederjet

реактивное воздушное судно с низким расходом топлива

economical-to-operate jetliner

реверсивный воздушный винт

1. negative thrust propeller

2. reversible-pitch propeller регистратор воздушной скорости

air-speed recorder

регистрация воздушного судна

aircraft registration

регистрировать воздушное судно

register the aircraft

регулярное воздушное сообщение

regular airline service

регулярные воздушные перевозки

scheduled air service

регулятор оборотов воздушного винта

propeller governor

регулятор числа оборотов воздушного винта

propeller control unit

редуктор воздушного винта

1. propeller gearbox

2. airscrew reduction gear 3. propeller gear режим воздушного потока в заборнике воздуха

inlet airflow schedule

резервирование воздушного пространства

airspace reservation

резервное воздушное судно

standby aircraft

резервное оборудование воздушного судна

aircraft standby facilities

рейс с гражданского воздушного судна

civil flight

рекламный проспект воздушного судна

aircraft leaflet

ремонт воздушного судна

aircraft overhaul

ремонт оборудования воздушного судна

aircraft equipment overhaul

ресурсные испытания воздушного судна

aircraft endurance tests

руководство по полетам воздушных судов гражданской авиации

civil air regulations

руководство по технической эксплуатации воздушного судна

aircraft maintenance guide

рулящее воздушное судно

taxiing aircraft

санитарное воздушное судно

1. ambulance aircraft

2. hospital aircraft санитарный контроль воздушных судов

aircraft sanitary control

сбалансированное воздушное судно

balanced aircraft

сборник пассажирских тарифов на воздушную перевозку

Air Passenger Tariff

сборочный стапель воздушного судна

aircraft assembly jig

сверхзвуковое воздушное судно

supersonic aircraft

сверхзвуковой воздушный транспорт

supersonic transport

свойственный воздушному судну

inherent in the aircraft

себестоимость воздушного судна

aircraft cost level

себестоимость производства воздушного судна

aircraft first cost

сектор воздушного пространства

airspace segment

Секция аэродромов, воздушных трасс и наземных средств

Aerodromes, Air Routes and Ground Aids Section

(ИКАО) Секция исследования воздушного транспорта

Air Transport Studies Section

(ИКАО) Секция тарифов воздушных перевозчиков

Air Carrier Tariffs Section

(ИКАО) серийный вариант воздушного судна

production aircraft

серия воздушных судов

aircrafts batch

сертификат воздушного судна

aircraft certificate

сертификат воздушного судна по шуму

aircraft noise certificate

сеть воздушных трасс

air route network

сигнал между воздушными судами в полете

air-to-air signal

система воздушного наблюдения

air surveillance system

система воздушного охлаждения

air cooling system

система воздушных тормозов

air brake system

система измерения посадочных параметров воздушного судна

aircraft landing measurement system

система обогрева воздушного судна

aircraft heating system

система оповещения о воздушном движении

traffic alert system

система опознавания воздушного судна

aircraft identification system

система предупредительной сигнализации воздушного судна

aircraft warning system

система приемника воздушного давления

pitot-static system

система сбора воздушных параметров

flight environment data system

(условий полета) система сбора воздушных сигналов

air data computer system

система управления воздушным движением

air traffic control system

система управления воздушным судном

aircraft control system

система управления воздушным судном при установке на стоянку

approach guidance nose-in to stand system

система флюгирования воздушного винта

propeller feathering system

скоростное воздушное судно

high-speed aircraft

скорость воздушного судна

aircraft speed

скорость движения воздушной массы

air velocity

служба воздушного движения

air traffic service

служба воздушных сообщений

airways and air communications service

служба управления воздушным движением

air traffic control service

служебное воздушное судно

1. business aircraft

2. baseline aircraft смешанная воздушная перевозка

intermodal air carriage

снаряженное воздушное судно

topped-up aircraft

снижать высоту полета воздушного судна

push the aircraft down

снижать скорость воздушного судна до

decelerate the aircraft to

снятие воздушного судна с эксплуатации

aircraft removal from service

совершать посадку на борт воздушного судна

join an aircraft

согласование объемов воздушных перевозок

traffic flow arrangement

соглашение между авиакомпаниями об аренде воздушных судов

airlines leasing arrangement

соглашение об обмене воздушными суднами

intercharged aircraft agreement

соглашение о воздушном сообщении

air transport agreement

создавать опасность для воздушного судна

endanger the aircraft

сообщение о положении воздушного судна

aircraft position report

соосный воздушный винт

coaxial propeller

сопровождать воздушное судно

follow up the aircraft

сопротивление движению воздушного судна

rolling resistance

сопротивление скольжению воздушного судна

aircraft skidding drag

состояние готовности воздушного судна к вылету

aircraft alert position

спасательное воздушное судно

survival craft

специалист по ремонту воздушных судов

aircraft repairman

списание воздушного судна

1. retirement of aircraft

2. aircraft supersedeas спортивное воздушное судно

sports aircraft

спутная струя за воздушным винтом

airscrew wash

спутная струя за воздушным судном

aircraft wake

спутный след воздушного судна

aircraft trail

средства эвакуации воздушного судна

aircraft evacuation means

срок службы воздушного судна

aircraft age

срыв воздушного потока

airflow breakdown

ставить воздушный винт во флюгерное положение

feather the propeller

ставить воздушный винт на полетный упор

latch the propeller flight stop

ставить воздушный винт на упор

latch a propeller

стапель для сборки воздушного судна

aircraft fixture

статистическая сводка воздушных перевозок

traffic flow summary

стационарная установка для обслуживания воздушного судна

aircraft servicing installation

стенд балансировки воздушных винтов

propeller balancing stand

степень вентиляции кабины воздушного судна

aircraft ventilation rate

степень износа воздушного судна

aircraft wearout rate

столкновение воздушного судна

aircraft impact

столкновение воздушных судов

aircrafts impingement

столкновение птиц с воздушным судном

bird strike to an air craft

стопорить воздушный винт

brake the propeller

стравливать воздушную пробку

bleed air

страгивание воздушного судна

aircraft breakaway

страхование воздушного судна

aircraft insurance

судно на воздушной подушке

hovercraft

сухой вес воздушного судна

dry weight

сухопутное воздушное судно

land aircraft

существенно поврежденное воздушное судно

substantially dameged aircraft

схема воздушного движения

air traffic pattern

схема воздушного поиска

aerial search pattern

схема воздушной обстановки

air plot

схема загрузки воздушного судна

1. aircraft loading diagram

2. aircraft loading chart схема обслуживания воздушного движения

air traffic service chart

таблица поправок воздушной скорости

air-speed calibration card

тарировка указателя воздушной скорости

air-speed indicator calibration

тариф на воздушную перевозку пассажира

air fare

тариф при регулярной воздушной перевозки

regular fare

температура возмущенной воздушной массы

static air temperature

техническая аптечка воздушного судна

aircraft repair kit

технология технического обслуживания воздушного судна

aircraft maintenance practice

тип воздушного судна

aircraft type

толкающий воздушный винт

pusher propeller

топливо без воздушных пузырьков

bubble-free fuel

тормоз воздушного винта

propeller brake

тормозная характеристика воздушного судна

1. aircraft stopping performance

2. aircraft braking performance точка швартовки воздушного судна

aircraft tie-down point

точно опознавать воздушное судно

properly identify the aircraft

транспортное воздушное судно

1. transport aircraft

2. heavy aircraft транспортные средства для обслуживания воздушного судна

aircraft service truck's

трафарет ограничения воздушной скорости

airspeed placard

тренажер воздушного судна

aircraft simulator

тренировочное воздушное судно

practice aircraft

туннельный воздушный винт

ducting propeller

турбовинтовое реактивное воздушное судно

prop jet

турбулентный след за воздушным винтом

propeller wake

тяга воздушного винта

1. propeller thrust

2. airscrew propulsion тянущий воздушный винт

tractor propeller

убирать механизацию крыла воздушного судна

clean the aircraft

угол входа воздушной массы

angle of indraft

угол удара воздушного судна

aircraft impact angle

угол установки лопасти воздушного винта

1. airscrew blade incidence

2. propeller incidence угон воздушного судна

hijacking

удаление воздушного судна

removal of aircraft

удаление воздушной пробки

bleeding

удалять воздушное судно

remove the aircraft

узловой район воздушного движения

air traffic hub

указания по управлению воздушным движением

air-traffic control instruction

указатель воздушной скорости

1. airspeed indicator

2. airspeed instrument указатель воздушной трассы

airway designator

указатель индикаторной воздушной скорости

calibrated airspeed indicator

указатель положения воздушного судна

1. aircraft reference symbol

(на шкале навигационного прибора) 2. aircraft position indicator укомплектованное воздушное судно

entire aircraft

уменьшение мощности двигателей воздушного судна

aircraft power reduction

уменьшение ограничений в воздушных перевозках

air transport facilitation

универсальное реактивное воздушное судно

go anywhere jetliner

управление воздушным движением

1. traffic control

2. air traffic control управление воздушным движением на трассе полета

airways control

управление воздушным судном

aircraft handling

управление потоком воздушного движения

air traffic flow management

управление шагом воздушного винта

propeller pitch control

управляемое воздушное судно

1. the aircraft under command

2. under command aircraft управляемость воздушного судна

aircraft sensitivity

управлять воздушным судном

1. control the aircraft

2. steer the aircraft уровень безопасности полетов воздушного судна

aircraft safety factor

условия выполнения воздушных перевозок

air traffic environment

условия обтекания воздушным потоком

airflow conditions

условия при высокой плотности воздушного движения

high density traffic environment

условно прозрачный вид воздушного судна

aircraft phantom view

усталостный ресурс воздушного судна

aircraft fatigue life

устанавливать воздушное судно

1. place the aircraft

2. align the aircraft устанавливать воздушное судно по оси

align the aircraft with the center line

устанавливать воздушное судно по оси ВПП

align the aircraft with the runway

устанавливать на борту воздушного судна

install in the aircraft

устанавливать наличие воздушной пробки в системе

determine air in a system

устанавливать шаг воздушного винта

set the propeller pitch

установившееся обтекание крыла воздушным потоком

steady airflow about the wing

установка шага лопасти воздушного винта

propeller pitch setting

установленное повреждение воздушного судна

known aircraft damage

установленный на воздушном судне

airborne

устаревшая модель воздушного судна

outdated aircraft

устойчивость воздушной массы

air stability

устойчивый воздушный поток

stable air

утяжелять воздушный винт

move the blades to higher

учебное воздушное судно

school aircraft

учебно-тренировочное воздушное судно

training aircraft

фактическая воздушная скорость

actual airspeed

фактическое положение воздушного судна

aircraft's present position

фиксатор шага лопасти воздушного винта

propeller pitch lock

фирма по производству воздушных судов

aircraft company

флюгирование воздушного винта

propeller feathering

флюгируемый воздушный винт

feathering propeller

формуляр воздушного винта

propeller record

фрахтовать воздушное судно

charter an aircraft

цельнометаллическое воздушное судно

all-metal aircraft

Центральное управление международных воздушных сообщений гражданской авиации

General Department of International Air Services of Aeroflot

центр обеспечения воздушной связи

air communication center

центровка воздушного судна

aircraft center - of - gravity

центровочный график воздушного судна

aircraft balance diagram

цех технического обслуживания воздушных судов

aircraft maintenance division

цикл управления воздушным движением

air traffic control loop

цилиндр управления воздушными тормозами

air-brake jack

челночное воздушное сообщение

shuttle service

четырехлопастный воздушный винт

four-bladed propeller

шаг воздушного винта

propeller pitch

швартовать воздушное судно

moor the aircraft

швартовка груза на воздушном судне

aircraft cargo lashing

широкофюзеляжное воздушное судно

wide-body aircraft

широкофюзеляжное реактивное воздушное судно

1. wide-bodied jet

2. jumbo jet широта местонахождения воздушного судна

aircraft fix latitude

школа подготовки специалистов по управлению воздушным движением

air traffic school

штанга приемника воздушного давления

airspeed mast

эвакуация воздушного судна с места аварии

aircraft salvage

эволюция воздушного судна

aircraft evolution

эквивалентная воздушная скорость

equivalent airspeed

экипаж воздушного судна

crew team

экран изображения воздушной обстановки

air display

эксперт по обслуживанию воздушного движения

air traffic services expert

эксплуатационная дальность полета воздушного судна

aircraft operational range

эксплуатационная технологичность воздушного судна

aircraft maintenance performance

эксплуатационные испытания воздушного судна

aircraft commissioning tests

эксплуатационные расходы на воздушное судно

aircraft operating expenses

эксплуатация воздушного судна

1. aircraft operation

2. operation of aircraft 3. aircraft employment эксплуатировать воздушное судно

1. operate an aircraft

2. engage in aircraft operation эксплуатируемое воздушное судно

1. active aircraft

2. in-service aircraft 3. aircraft in service электрическое управление шагом воздушного винта

electric propeller pitch control

электропроводка воздушного судна

aircraft lead

электропроводка высокого напряжения на воздушном судне

aircraft high tension wiring

электропроводка низкого напряжения на воздушном судне

aircraft low tension wiring

электросистема воздушного судна

aircraft electric system

элемент конструкции воздушного судна

aircraft component

энергия порыва воздушной массы

gust load

эффект воздушной подушки

air cushion effect

эшелонирование полетов воздушных судов

aircraft spacing

эшелонировать воздушное судно

separate the aircraft

Barnaby, Kenneth C.

SUBJECT AREA: Ports and shipping

[br]

b. c.1887 England

d. 22 March 1968 England

[br]

English naval architect and technical author.

[br]

Kenneth Barnaby was an eminent naval architect, as were his father and grandfather before him: his grandfather was Sir Nathaniel Barnaby KGB, Director of Naval Construction, and his father was Sydney W.Barnaby, naval architect of John I. Thornycroft \& Co., Shipbuilders, Southampton. At one time all three were members of the Institution of Naval Architects, the first time that this had ever occurred with three members from one family.

Kenneth Barnaby served his apprenticeship at the Thornycroft shipyard in Southampton and later graduated in engineering from the Central Technical College, South Kensington, London. He worked for some years at Le Havre and at John Brown's shipyard at Clydebank before rejoining his old firm in 1916 as Assistant to the Shipyard Manager. In 1919 he went to Rio de Janeiro as a chief ship draughtsman, and finally he returned to Thornycroft, in 1924 he succeeded his father as Naval Architect, and remained in that post until his retirement in 1955, having been appointed a director in 1950.

Barnaby had a wide knowledge and understanding of ships and ship design and during the Second World War he was responsible for much of the development work for landing craft, as well as for many other specialist ships built at the Southampton yard. His experience as a deep-sea yachtsman assisted him. He wrote several important books; however, none can compare with the Centenary Volume of the Royal Institution of Naval Architects. In this work, which is used and read widely to this day by naval architects worldwide, he reviewed every paper presented and almost every verbal contribution made to the Transactions during its one hundred years.

[br]

Principal Honours and Distinctions

OBE 1945. Associate of the City and Guilds Institute. Royal Institution of Naval Architects Froude Gold Medal 1962. Honorary Vice-President, Royal Institution of Naval Architects 1960–8.

Bibliography

c.1900, Marine Propellers, London. 1949, Basic Naval Architecture, London.

1960, The Institution of Naval Architects 1860–1960, London.

1964, 100 Years of Specialised Shipbuilding and Engineering, London. 1968, Some Ship Disasters and their Causes, London.

FMW

базовые данные

1) Engineering: basic data

2) Economy: base data

3) Banking: underlying data

4) SAP. general data

5) Automation: wireframe data

6) Makarov: data base

7) Research and development: baseline information

Norton de Matos, José

(1867-1955)

   One of Portugal's most important and influential colonial administrators of the 20th-century African empire, a central figure in the management of Portugal's dispatch of an army to Flanders in World War I, and oppositionist candidate in the 1949 presidential elections. Trained as an army engineer, he attended Coimbra University and became a stalwart republican. During much of the 1890s, he served in Portuguese India, where he came under the influence of the style and policies of the British Raj. During the First Republic, he held a number of important posts in the empire and in Portugal: governor-general of Angola (1912-15), colonial minister (1915), and minister of war (1915-17), during which service he was instrumental in organizing the mobilization and dispatch of Portugal's Expeditionary Force (CEP) to the western front in 1917. Later, he served as high commissioner and governor-general of Angola (1921-24) and was named Portugal's minister to Great Britain (1924-26).

   Dismissed from his London post by the military dictatorship in 1926, Norton de Matos never held an official post again and, as he opposed both the military dictatorship and the Estado Novo, he found it difficult to practice his engineering profession while in retirement from the army. However, he remained important in post-1926 colonial policies and concepts, and attempted to put them into practice after 1945. In 1949, General Norton de Matos was the oppositionist candidate in the presidential elections and opposed the regime incumbent, Marshal Antônio Óscar Carmona. Using the law, police harassment, and other means, the Estado Novo persecuted Norton de Matos's followers and disrupted his campaign. Just before the rigged election was to be held, the aged general withdrew his candidacy, rightfully claiming fraud and intimidation. A tough if liberal reformist in colonial affairs, the senior colonial authority wrote his final book A Nação Una in 1953, calling for the regime to implement his basic reform ideas and to improve treatment of Africans in labor and race relations. Norton de Matos's prescient warnings about African policies were largely ignored, while Lisbon followed his key strategic and development concepts.

    See also Carmona, António Óscar de Fragoso.

Carnot, Nicolas Léonard Sadi

SUBJECT AREA: Steam and internal combustion engines

[br]

b. 1 June 1796 Paris, France

d. 24 August 1831 Paris, France

[br]

French laid the foundations for modern thermodynamics through his book Réflexions sur la puissance motrice du feu when he stated that the efficiency of an engine depended on the working substance and the temperature drop between the incoming and outgoing steam.

[br]

Sadi was the eldest son of Lazare Carnot, who was prominent as one of Napoleon's military and civil advisers. Sadi was born in the Palais du Petit Luxembourg and grew up during the Napoleonic wars. He was tutored by his father until in 1812, at the minimum age of 16, he entered the Ecole Polytechnique to study stress analysis, mechanics, descriptive geometry and chemistry. He organized the students to fight against the allies at Vincennes in 1814. He left the Polytechnique that October and went to the Ecole du Génie at Metz as a student second lieutenant. While there, he wrote several scientific papers, but on the Restoration in 1815 he was regarded with suspicion because of the support his father had given Napoleon. In 1816, on completion of his studies, Sadi became a second lieutenant in the Metz engineering regiment and spent his time in garrison duty, drawing up plans of fortifications. He seized the chance to escape from this dull routine in 1819 through an appointment to the army general staff corps in Paris, where he took leave of absence on half pay and began further courses of study at the Sorbonne, Collège de France, Ecole des Mines and the Conservatoire des Arts et Métiers. He was inter-ested in industrial development, political economy, tax reform and the fine arts.

It was not until 1821 that he began to concentrate on the steam-engine, and he soon proposed his early form of the Carnot cycle. He sought to find a general solution to cover all types of steam-engine, and reduced their operation to three basic stages: an isothermal expansion as the steam entered the cylinder; an adiabatic expansion; and an isothermal compression in the condenser. In 1824 he published his Réflexions sur la puissance motrice du feu, which was well received at the time but quickly forgotten. In it he accepted the caloric theory of heat but pointed out the impossibility of perpetual motion. His main contribution to a correct understanding of a heat engine, however, lay in his suggestion that power can be produced only where there exists a temperature difference due "not to an actual consumption of caloric but to its transportation from a warm body to a cold body". He used the analogy of a water-wheel with the water falling around its circumference. He proposed the true Carnot cycle with the addition of a final adiabatic compression in which motive power was con sumed to heat the gas to its original incoming temperature and so closed the cycle. He realized the importance of beginning with the temperature of the fire and not the steam in the boiler. These ideas were not taken up in the study of thermodynartiics until after Sadi's death when B.P.E.Clapeyron discovered his book in 1834.

In 1824 Sadi was recalled to military service as a staff captain, but he resigned in 1828 to devote his time to physics and economics. He continued his work on steam-engines and began to develop a kinetic theory of heat. In 1831 he was investigating the physical properties of gases and vapours, especially the relationship between temperature and pressure. In June 1832 he contracted scarlet fever, which was followed by "brain fever". He made a partial recovery, but that August he fell victim to a cholera epidemic to which he quickly succumbed.

[br]

Bibliography

1824, Réflexions sur la puissance motrice du feu; pub. 1960, trans. R.H.Thurston, New York: Dover Publications; pub. 1978, trans. Robert Fox, Paris (full biographical accounts are provided in the introductions of the translated editions).

Further Reading

Dictionary of Scientific Biography, 1971, Vol. III, New York: C.Scribner's Sons. T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.

Black.

Chambers Concise Dictionary of Scientists, 1989, Cambridge.

D.S.L.Cardwell, 1971, from Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (discusses Carnot's theories of heat).

RLH

Petzval, Josef Max

SUBJECT AREA: Photography, film and optics

[br]

b. 1807 Spisska-Beila, Hungary

d. 17 September 1891 Vienna, Austria

[br]

Hungarian mathematician and photographic-lens designer, inventor of the first "rapid" portrait lens.

[br]

Although born in Hungary, Petzval was the son of German schoolteacher. He studied engineering at the University of Budapest and after graduation was appointed to the staff as a lecturer. In 1835 he became the University's Professor of Higher Mathematics. Within a year he was offered a similar position at the more prestigious University of Vienna, a chair he was to occupy until 1884.

The earliest photographic cameras were fitted with lenses originally designed for other optical instruments. All were characterized by small apertures, and the long exposures required by the early process were in part due to the "slow" lenses. As early as 1839, Petzval began calculations with the idea of producing a fast achromatic objective for photographic work. For technical advice he turned to the Viennese optician Peter Voigtländer, who went on to make the first Petzval portrait lens in 1840. It had a short focal length but an extremely large aperture for the day, enabling exposure times to be reduced to at least one tenth of that required with other contemporary lenses. The Petzval portrait lens was to become the basic design for years to come and was probably the single most important development in making portrait photography possible; by capturing public imagination, portrait photography was to drive photographic innovation during the early years.

Petzval later fell out with Voigtländer and severed his connection with the company in 1845. When Petzval was encouraged to design a landscape lens in the 1850s, the work was entrusted to another Viennese optician, Dietzler. Using some early calculations by Petzval, Voigtländer was able to produce a similar lens, which he marketed in competition, and an acrimonious dispute ensued. Petzval, embittered by the quarrel and depressed by a burglary which destroyed years of records of his optical work, abandoned optics completely in 1862 and devoted himself to acoustics. He retired from his professorship on his seventieth birthday, respected by his colleagues but unloved, and lived the life of a recluse until his death.

[br]

Principal Honours and Distinctions

Member of the Hungarian Academy of Science 1873.

Further Reading

J.M.Eder, 1945, History of Photography, trans. E. Epstean, New York (provides details of Petzval's life and work; Eder claims he was introduced to Petzval by mutual friends and succeeded in obtaining personal data).

Rudolf Kingslake, 1989, A History of the Photographic Lens, Boston (brief biographical details).

L.W.Sipley, 1965, Photography's Great Inventors, Philadelphia (brief biographical details).

JW

Thévénin, Léon Charles

SUBJECT AREA: Electricity

[br]

b. 30 March 1857 Paris, France

d. 21 September 1926 Paris, France

[br]

French telegraph engineer who extended Ohm's Law to the analysis of complex electrical circuits.

[br]

Following a basic education, Thévénin entered the Ecole Polytechnique in Paris, graduating in 1876. In 1878 he joined the Corps of Telegraph Engineers (which subsequently became the French PTT). There he initially worked on the development of long-distance underground telegraph lines, but he later switched to working on power lines. Appointed a teaching inspector at the Ecole Supérieure in 1882, he became increasingly interested in the problems of measurement in electrical circuits. As a result of studying Kirchoff's Laws, which were essentially derived from Ohm's Law, he developed his now-famous theorem which made it possible to calculate the currents in more complex electrical circuits.

As well as becoming Head of the Bureau des Lignes, up until his death he also found time for teaching other subjects outside the Ecole, including a course in mechanics at the Institut National Agronomique. In 1896 he was appointed Director of the Telegraph Engineering School, then, in 1901, Engineer-in-Chief of the telegraph workshops. He retired in 1914.

[br]

Bibliography

1883, "Extension of Ohm's Law to complex electrical circuits", Comptes rendus 97:159 (describes Thévénin's Theorem).

Further Reading

F.E.Terman, 1943, Radio Engineers'Handbook, New York: McGraw-Hill, Section 3 (summarizes the relevant circuit theory).

KF

НКУ с защитой от воздействия электрической дуги

1. internal arc-proof switchgear and controlgear assemblу
2. arc-resistant switchgear
3. arc-proof switchgear
4. arc-proof switchboard
5. arc-proof low voltage switchgear and controlgear assembly

 

НКУ с защитой от воздействия электрической дуги
комплектное устройство с защитой от электрической дуги
низковольтное комплектное устройство с защитой от электрической дуги
НКУ распределения и управления с защитой от электрической дуги
-
[Интент]

EN

arc-resistant switchgear
A type of switchgear design which is designed to withstand the effects of an internal arcing fault, without causing harm to personnel who are located in defined areas. It is not intended to withstand these internal arcing fault without possibly causing physical damage to the structure and/or components, but often the physical damage is less with an arc-resistant design.

There are three classes of protection:
Type A - eliminates the emission of gases and particles from the front of the switchgear during an internal arcing fault,
Type B - eliminates the emission of gases and particles from the front and sides of the switchgear during an internal arcing fault,
Type C - eliminates the emission of gases and particles from the front and sides of the switchgear, from between compartments within the same cell, and between adjacent cells during an internal arcing fault.

Arc-resistant switchgear has traditionally been metal-clad, but the basic concept could also be applied to other types of switchgear as well.

arc-proof switchgear
An incorrect term. Please refer to arc-resistant switchgear
[Schneider Electric]
[ http://electrical-engineering-portal.com/glossary-of-medium-voltage-switchgear-terms]

Параллельные тексты EN-RU

If the electric arc occurs inside LV switchgear it generates internal overpressures and results in local overheatings which may cause high mechanical and thermal stresses in the equipment.

Besides, the involved materials can generate hot decomposition products, gases or fumes, which, due to the overpressure, are almost always ejected to the outside of the enclosure thus jeopardizing the operator safety.

The European Directive 2006/95/EC states the fundamental safety requirements for low voltage electric materials (from 50 V to 1000 V in alternating current, from 75 V to 1500 V in continuos current) to be put on the market within the European Community.

Among the essential safety requirements defined by this Directive particular importance is given to the need of taking technical measures to prevent “temperature rises, electric arcs or radiations which may result in hazards” from occurring.

This aspect has always been highly considered for apparatus, but it has been wrongly neglected for electrical switchgear and only in the last 10-15 years it has been catching on both at Italian as well as at international level.

Safety for the operator and for the installation in case of arcing inside LV switchgear can be obtained through three different design philosophies:
1. assemblies mechanically capable of withstanding the electric arc (passive protection)
2. assemblies equipped with devices limiting the effects of internal arcing (active protection)
3. assemblies equipped with current limiting circuitbreakers.

These three solutions (also combined together) have found a remakable development in the industrial field and have been successfully applied by the main manufacturers of LV switchgear and controlgear assemblies.

As it can be seen hereafter by examining the first two solutions, an “active” protection against arc faults is intrinsecally more complex than a “passive” one.

This because of the presence of additional electromechanical/ electronic devices5 which limit the arcing effects and which, by their nature, may be subject to faults or not-tripping.

[ABB]

Дуга, возникшая внутри НКУ, создает внутреннее избыточное давление и вызывает локальный перегрев, что может привести к воздействию на оборудование значительного механического напряжения и перепада температур.

Кроме того, под воздействием дуги различные материалы разлагаются на продукты, имеющие высокую температуру, в том числе газы и дым, которые почти всегда вырываются из оболочки НКУ под высоким давлением, подвергая опасности оперативный персонал.

Европейская директива 2006/95/EC определяет основные требования безопасности для низковольтного (от 50 до 1000 В переменного тока и от 75 до 1500 В постоянного тока) оборудования поставляемого на рынок Европейского Сообщества.

Одно из основных требований безопасности, определяемое данной директивой как наиболее важное, заключается в необходимости предпринять технические меры для предотвращения "подъема температуры, возникновения электрической дуги или излучения", которые могут причинить ущерб.

Данная проблема всегда учитывалась при создании различных аппаратов, но незаслуженно игнорировалась при разработке электрических комплектных устройств, и только в последние 10-15 лет ей стали уделять должное внимание как в Италии, так и во всем мире.

При возникновении электрической дуги внутри НКУ безопасность оператора и электроустановки обеспечивается тремя способами:
1. Конструкция НКУ должна выдерживать механические воздействия, возникающие при горении электрической дуги (пассивная защита).
2. НКУ должно быть оснащено устройствами, ограничивающими воздействие электрической дуги (активная защита)
3. НКУ должны быть оснащены токоограничивающими автоматическими выключателями.

Указанные три способа (применяемые совместно) получили дальнейшее развитие в промышленности и успешно применяются основными изготовителями НКУ распределения и управления.

Как будет показано далее при рассмотрении первых двух способов, активная защита от дуговых» неисправностей является более сложной, чем пассивная защита.

Это объясняется необходимостью использования дополнительных электромеханических или электронных устройств, задачей которых является ограничение воздействий дуги и которые сами могут оказаться неисправными и не сработать.

[Перевод Интент]

Тематики

• НКУ (шкафы, пульты,...)

Синонимы

• комплектное устройство с защитой от электрической дуги
• низковольтное комплектное устройство с защитой от электрической дуги
• НКУ распределения и управления с защитой от электрической дуги

EN

• arc-proof low voltage switchgear and controlgear assembly
• arc-proof switchboard
• arc-proof switchgear
• arc-resistant switchgear
• internal arc-proof switchgear and controlgear assemblу