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21 прогресс
муж. progressм. progress;
~ науки the progress of science;
~ в технике progress in engineering, technical progress;
~ивный progressive;
~ивные убеждения, взгляды progressive views;
~ивное обложение налогом эк. progressive/graduaded taxation.Большой англо-русский и русско-английский словарь > прогресс
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22 report
1) отчёт; доклад2) акт, протокол3) сводка•to report about — сообщать, докладывать
- report of the directors - engineering report - feasibility report - inspection report - monthly report - periodical report - preparation of a feasibility report - progress report - progress maintenance report - quality report - quarterly report - test report - weather reportto send a feasibility report under separate cover — высылать технико-экономическое обоснование (ТЭО) отдельным пакетом
* * *1. акт; протокол2. доклад; сообщение; отчёт3. сводка- progress report
- test report -
23 work
1. n1) работа; труд; дело2) место работы; должность, занятие3) действие, функционирование4) изделие; изделия, продукция5) заготовка; обрабатываемое изделие6) pl завод, фабрика, мастерские7) pl инженерное сооружение
- actual work
- additional work
- adjustment work
- administrative work
- agency work
- agricultural work
- aircraft works
- ancillary work
- art work
- artistic work
- assembly work
- auditing work
- auxiliary work
- building works
- casual work
- civil work
- civil engineering works
- clerical work
- commercial work
- commission work
- commissioning work
- construction works
- contract work
- contractor's works
- daily work
- day work
- day-to-day work
- decorating work
- decoration work
- defective work
- design work
- double-shift work
- efficient work
- engineering work
- engineering works
- field work
- fine work
- finishing work
- full-capacity work
- full-time work
- future work
- hand work
- heavy engineering works
- high-class work
- highly mechanized work
- highly skilled work
- hired work
- incentive work
- installation work
- integrated works
- intellectual work
- iron and steel works
- joint work
- laboratory work
- labour-intensive work
- lorry works
- low-paid work
- machine work
- maintenance work
- maker's works
- managerial work
- manual work
- manufacturer's works
- mechanical work
- metallurgical works
- mounting work
- multishift work
- night work
- nonshift work
- office work
- one-shift work
- on-site work
- outdoor work
- outstanding work
- overtime work
- packing work
- paid work
- paper work
- partial work
- part-time work
- patent work
- permanent work
- piece work
- planned work
- planning work
- practical work
- preliminary work
- preparatory work
- productive work
- reconstruction work
- regular work
- remedial work
- repair work
- rescue work
- research work
- routine work
- rush work
- rythmical work
- salvage work
- satisfactory work
- scheduled work
- scientific work
- seasonal work
- second-shift work
- serial work
- service work
- shift work
- short-time work
- smooth work
- spare-time work
- stevedore work
- stevedoring work
- subcontract work
- subcontractor's works
- subsidiary work
- survey and research work
- task work
- team work
- temporary work
- testing work
- time work
- two-shift work
- unhealthy work
- unskilled work
- wage work
- well-paid work
- work according to the book
- work at normal working hours
- work at piece rates
- work at time rates
- work by contract
- work by hire
- work by the piece
- work by the rules
- work for hire
- work in process
- work in progress
- works of art
- work of development
- work of equipment
- work of an exhibition
- work on a contract
- work on a contractual basis
- work on hand
- work on a project
- work on schedule
- work on the site
- work under way
- ex works
- out of work
- fit for work
- unfit for work
- work done
- work performed
- accept work
- accomplish work
- alter work
- assess work
- be at work
- be behind with one's work
- begin work
- bill work
- be on short time work
- be thrown out of work
- carry out work
- cease work
- close down the works
- commence work
- complete work
- control work
- coordinate work
- correct work
- do work
- employ on work
- entrust with work
- evaluate work
- execute work
- expedite work
- finalize work
- finish work
- fulfil work
- get work
- get down to work
- give out work by contract
- go ahead with work
- hold up work
- improve work
- inspect work
- insure work
- interfere with work
- interrupt work
- leave off work
- look for work
- organize work
- pay for work
- perform work
- postpone work
- proceed with work
- provide work
- put off work
- rate work
- rectify defective work
- reject work
- remedy defective work
- resume work
- retire from work
- speed up work
- start work
- step up work
- stop work
- superintend work
- supervise work
- suspend work
- take over work
- take up work
- terminate work
- undertake work2. v1) работать2) действовать, функционировать3) обрабатывать
- work off
- work out
- work over
- work overtime
- work to rule
- work up -
24 Williamson, David Theodore Nelson
[br]b. 15 February 1923 Edinburgh, Scotlandd. 1992 Italy[br]Scottish engineer, inventor of the Williamson Amplifier and computer-controlled machine tools.[br]D.T.N.Williamson was educated at George Heriot's School, Edinburgh, and studied mechanical engineering at the University of Edinburgh and electrical engineering at Heriot-Watt College (now Heriot-Watt University), Edinburgh. He joined the MO Valve Company in London in 1943 and worked in his spare time on improving the sound reproduction for gramophones, and in 1946 invented the "Williamson Amplifier".That same year Williamson returned to Edinburgh as a development engineer with Ferranti Ltd, where he was employed in developing computer-controlled machining systems. In 1961 he was appointed Director of Research and Development at Molins Ltd, where he continued work on computer-controlled machine tools. He invented the Molins System 24, which employed a number of machine tools, all under computer control, and is generally acknowledged as a significant step in the development of manufacturing systems. In 1974 he joined Rank Xerox and became Director of Research before taking early retirement to live in Italy. Between 1954 and 1979 he served on numerous committees relating to computer-aided design, manufacturing technology and mechanical engineering in general.[br]Principal Honours and DistinctionsFRS 1968.BibliographyWilliamson was author of several papers and articles, and contributed to the ElectronicEngineers' Reference Book (1959), Progress in Automation (1960) and the Numerical Control Handbook (1968).RTSBiographical history of technology > Williamson, David Theodore Nelson
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25 Artificial Intelligence
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)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)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, EventuallyJust 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 ProgramMany 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)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)[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)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 FormThe 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)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)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)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)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 FormationIt 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)We might distinguish among four kinds of 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.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.... 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)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 ContextsEven 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)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)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 IntelligenceThe 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)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 PropositionsIn 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)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)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)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)Historical dictionary of quotations in cognitive science > Artificial Intelligence
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26 development
1. n развитие, рост; совершенствование2. n биол. эволюция3. n изложение; раскрытие4. n результат5. n преим. событие6. n предприятие7. n обрабатываемый участок земли8. n разработкаnew development — новшество; новая разработка
9. n производство10. n лог. развёртывание, разъяснение; экспликация понятия11. n с. -х. выведение12. n с. -х. мелиорацияland ripe for development — земля, подготовленная для мелиорации
13. n с. -х. преобразование14. n с. -х. разложение15. n с. -х. шахм. вывод; развитие16. n с. -х. фото проявление17. n с. -х. горн. подготовка или вскрытие месторождения18. n с. -х. воен. расчленение, организация позицийСинонимический ряд:1. community (noun) community; project2. growth (noun) developing; disclosure; enlargement; evolution; growth; maturation; maturing; opening; unfolding3. increase (noun) accretion; accumulation; amassment; build-up; increase; increment; multiplication; proliferation4. news (noun) circumstance; episode; event; happening; incident; news; occasion; occurrence5. progress (noun) amelioration; betterment; elaboration; evolution; evolvement; expansion; flowering; gain; improvement; melioration; outgrowth; progress; progression; rise; unfolding; upgrowthАнтонимический ряд:decline; degeneration; deterioration -
27 optimization
- подбор оптимальных условий
- оптимизация
- определение оптимальных характеристик
- выбор оптимальных параметров
выбор оптимальных параметров
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[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
определение оптимальных характеристик
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[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
оптимизация
Процесс отыскания варианта, соответствующего критерию оптимальности
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]
оптимизация
1. Процесс нахождения экстремума функции, т.е. выбор наилучшего варианта из множества возможных, процесс выработки оптимальных решений; 2. Процесс приведения системы в наилучшее (оптимальное) состояние. Иначе говоря, первое определение трактует термин «О.» как факт выработки и принятия оптимального решения (в широком смысле этих слов); мы выясняем, какое состояние изучаемой системы будет наилучшим с точки зрения предъявляемых к ней требований (критерия оптимальности) и рассматриваем такое состояние как цель. В этом смысле применяется также термин «субоптимизация» в случаях, когда отыскивается оптимум по какому-либо одному критерию из нескольких в векторной задаче оптимизации (см. Оптимальность по Парето, Векторная оптимизация). Второе определение имеет в виду процесс выполнения этого решения: т.е. перевод системы от существующего к искомому оптимальному состоянию. В зависимости от вида используемых критериев оптимальности (целевых функций или функционалов) и ограничений модели (множества допустимых решений) различают скалярную О., векторную О., мно¬гокритериальную О., стохастическую О (см. Стохастическое программирование), гладкую и негладкую (см. Гладкая функция), дискретную и непрерывную (см. Дискретность, Непрерывность), выпуклую и вогнутую (см. Выпуклость, вогнутость) и др. Численные методы О., т.е. методы построения алгоритмов нахождения оп¬тимальных значений целевых функций и соответствующих точек области допустимых значений — развитой отдел современной вычислительной математики. См. Оптимальная задача.
[ http://slovar-lopatnikov.ru/]Параллельные тексты EN-RU из ABB Review. Перевод компании Интент
The quest for the optimumВопрос оптимизацииThroughout the history of industry, there has been one factor that has spurred on progress more than any other. That factor is productivity. From the invention of the first pump to advanced computer-based optimization methods, the key to the success of new ideas was that they permitted more to be achieved with less. This meant that consumers could, over time and measured in real terms, afford to buy more with less money. Luxuries restricted to a tiny minority not much more than a generation ago are now available to almost everybody in developed countries, with many developing countries rapidly catching up.На протяжении всей истории промышленности существует один фактор, подстегивающий ее развитие сильнее всего. Он называется «производительность». Начиная с изобретения первого насоса и заканчивая передовыми методами компьютерной оптимизации, успех новых идей зависел от того, позволяют ли они добиться большего результата меньшими усилиями. На языке потребителей это значит, что они всегда хотят купить больше, а заплатить меньше. Меньше чем поколение назад, многие предметы считались роскошью и были доступны лишь немногим. Сейчас в развитых странах, число которых быстро увеличивается, подобное может позволить себе почти каждый.With industry and consumers expecting the trend towards higher productivity to continue, engineering companies are faced with the challenge of identifying and realizing further optimization potential. The solution often lies in taking a step back and looking at the bigger picture. Rather than optimizing every step individually, many modern optimization techniques look at a process as a whole, and sometimes even beyond it. They can, for example, take into account factors such as the volatility of fuel quality and price, the performance of maintenance and service practices or even improved data tracking and handling. All this would not be possible without the advanced processing capability of modern computer and control systems, able to handle numerous variables over large domains, and so solve optimization problems that would otherwise remain intractable.На фоне общей заинтересованности в дальнейшем росте производительности, машиностроительные и проектировочные компании сталкиваются с необходимостью определения и реализации возможностей по оптимизации своей деятельности. Для того чтобы найти решение, часто нужно сделать шаг назад, поскольку большое видится на расстоянии. И поэтому вместо того, чтобы оптимизировать каждый этап производства по отдельности, многие современные решения охватывают процесс целиком, а иногда и выходят за его пределы. Например, они могут учитывать такие факторы, как изменение качества и цены топлива, результативность ремонта и обслуживания, и даже возможности по сбору и обработке данных. Все это невозможно без использования мощных современных компьютеров и систем управления, способных оперировать множеством переменных, связанных с крупномасштабными объектами, и решать проблемы оптимизации, которые другим способом решить нереально.Whether through a stunning example of how to improve the rolling of metal, or in a more general overview of progress in optimization algorithms, this edition of ABB Review brings you closer to the challenges and successes of real world computer-based optimization tasks. But it is not in optimization and solving alone that information technology is making a difference: Who would have thought 10 years ago, that a technician would today be able to diagnose equipment and advise on maintenance without even visiting the factory? ABB’s Remote Service makes this possible. In another article, ABB Review shows how the company is reducing paperwork while at the same time leveraging quality control through the computer-based tracking of production. And if you believed that so-called “Internet communities” were just about fun, you will be surprised to read how a spin-off of this idea is already leveraging production efficiency in real terms. Devices are able to form “social networks” and so facilitate maintenance.Рассказывая об ошеломляющем примере того, как был усовершенствован процесс прокатки металла, или давая общий обзор развития алгоритмов оптимизации, этот выпуск АББ Ревю знакомит вас с практическими задачами и достигнутыми успехами оптимизации на основе компьютерных технологий. Но информационные технологии способны не только оптимизировать процесс производства. Кто бы мог представить 10 лет назад, что сервисный специалист может диагностировать производственное оборудование и давать рекомендации по его обслуживанию, не выходя из офиса? Это стало возможно с пакетом Remote Service от АББ. В другой статье этого номера АББ Ревю рассказывается о том, как компания смогла уменьшить бумажный документооборот и одновременно повысить качество управления с помощью компьютерного контроля производства. Если вы считаете, что так называемые «интернет-сообщества» служат только для развлечения,то очень удивитесь, узнав, что на основе этой идеи можно реально повысить производительность. Формирование «социальной сети» из автоматов значительно облегчает их обслуживание.This edition of ABB Review also features several stories of service and consulting successes, demonstrating how ABB’s expertise has helped customers achieve higher levels of productivity. In a more fundamental look at the question of what reliability is really about, a thought-provoking analysis sets out to find the definition of that term that makes the greatest difference to overall production.В этом номере АББ Ревю есть несколько статей, рассказывающих об успешных решениях по организации дистанционного сервиса и консультирования. Из них видно, как опыт АББ помогает нашим заказчикам повысить производительность своих предприятий. Углубленные размышления о самой природе термина «надежность» приводят к парадоксальным выводам, способным в корне изменить представления об оптимизации производства.Robots have often been called “the extended arm of man.” They are continuously advancing productivity by meeting ever-tightening demands on precision and efficiency. This edition of ABB Review dedicates two articles to robots.Робот – это могучее «продолжение» человеческой руки. Применение роботов способствует постоянному повышению производительности, поскольку они отвечают самым строгим требованиям точности и эффективности. Две статьи в этом номере АББ Ревю посвящены роботам.Further technological breakthroughs discussed in this issue look at how ABB is keeping water clean or enabling gas to be shipped more efficiently.Говоря о других технологических достижениях, обсуждаемых на страницах журнала, следует упомянуть о том, как компания АББ обеспечивает чистоту воды, а также более эффективную перевозку сжиженного газа морским транспортом.The publication of this edition of ABB Review is timed to coincide with ABB Automation and Power World 2009, one of the company’s greatest customer events. Readers visiting this event will doubtlessly recognize many technologies and products that have been covered in this and recent editions of the journal. Among the new products ABB is launching at the event is a caliper permitting the flatness of paper to be measured optically. We are proud to carry a report on this product on the very day of its launch.Публикация этого номера АББ Ревю совпала по времени с крупнейшей конференцией для наших заказчиков «ABB Automation and Power World 2009». Читатели, посетившие ее, смогли воочию увидеть многие технологии и изделия, описанные в этом и предыдущих выпусках журнала. Среди новинок, представленных АББ на этой конференции, был датчик, позволяющий измерять толщину бумаги оптическим способом. Мы рады сообщить, что сегодня он готов к выпуску.Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > optimization
28 work
- work
- n1. работа
2. изделие
3. обработка
4. возводимый объект (строительства) ( по подрядному договору); конструкция, сооружение
5. работа, мощность
6. pl сооружение, сооружения
7. pl завод, фабрика, мастерские
work above ground — наземные работы ( в отличие от подземных и подводных); работы, производимые на поверхности земли
work below ground ( level) — подземные работы
work carried out on site — работы, выполненные на стройплощадке
work done in sections — работа, выполненная отдельными секциями [частями]
work in open excavations — работы в открытых выемках [горных выработках]
work in progress — (строительные) работы в стадии выполнения, выполняемые [производимые] (строительные) работы; объект в стадии строительства
work in water — работы, производимые в воде [под водой]
work near water — работы, производимые близ водоёмов или рек
work on schedule — работы в процессе выполнения ( по графику); работы, предусмотренные планом [графиком]
- work of deformation
- work of external forces
- work of internal forces
- above-ground works
- additional work
- agricultural works
- alteration work
- ashlar work
- auxiliary work
- avalanche baffle works
- axed work
- backfill work
- backing masonry work
- bag work
- bench work
- block work
- brewery works
- brick work
- broken-color work
- brush work
- building work
- building site works
- carcass work
- carpenter's work
- cement works
- chemical production works
- civil engineering work
- coast protection works
- cob work
- completed work
- complicated building work
- concrete work
- concrete block masonry work
- concrete masonry work
- constructional work
- construction work
- continuous shift work
- contract work
- coursed work
- crib work
- day work
- dead work
- defective work
- defence works
- deformation work
- demolition work
- development work
- diver's works
- diversion works
- donkey work
- drainage works
- earth work
- earth-moving work
- elastic work of a material
- electric work
- electricity production works
- emergency work
- enclosed construction works
- engineering works
- erection work
- erosion protection works
- excavation works
- experimental work
- external work
- extra work
- facing work
- factory work
- fascine work
- finishing work
- finish work
- floating construction works
- flood-control works
- flood-protection works
- floor work
- floor-and-wall tiling work
- floor covering work
- food industry production work
- foundation work
- funerary works
- further day's work
- gas works
- gauged work
- glazed work
- glazier's work
- half-plain work
- hammered work
- hand work
- handy work
- heat insulation work
- heavy work
- highly mechanized work
- hot work
- in-fill masonry work
- innovative construction work
- insulating work
- intake works
- internal work in the system
- ironmongery work
- joinery work
- land retention works
- landslide protection works
- loading works
- manual work
- marine works
- metallurgical processing works
- night work
- nonconforming work
- office work
- off-the-site work
- one-coat work
- open-air intake works
- open construction works
- ornamental works
- ornate work
- outlet works
- overhang work
- overhead work
- permanent works up to ground level
- petroleum extraction works
- piece work
- pitched work
- plaster work
- plumbing work
- power production works
- precast works
- production works
- promotion work
- protection works
- protective works
- public works
- random ashlar work
- refurbishment work
- refuse disposal works
- refuse incineration works
- regulation works
- reinforced concrete work
- research work
- reticulated work
- road transport works
- roof tiling work
- rubble ashlar masonry work
- sanitary works
- sea defence works
- sediment exclusion works
- sewage disposal works
- single construction works
- smillage-axed work
- solid plaster work
- steel construction works
- steel works
- steel plate work
- structural restoration work
- surface transport works
- temporary works
- textile work
- three-coat work
- tiling work
- training works
- transport works
- treatment works
- two-coat work
- underground work
- underwater work
- unloading works
- vermiculated work
- virtual work
- waste disposal works
- water works
- water treatment works
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
29 report
отчёт; доклад; сообщение; рапорт || докладывать; отчитываться; сообщать
* * *
отчёт; донесение; сообщение; докладfailed equipment discrepancy report — отчёт об отклонении неисправного оборудования от технических условий
reliability engineering analysis report — сообщение о результатах исследования технического обеспечения надёжности
reliability problem area report — сообщение о проблемах, связанных с обеспечением надёжности
* * *
отчет, доклад
* * *
доклад, отчет, сообщение; докладывать, сообщать
* * *
30 office
отдел; бюро; офис; отделение- design office
- drawing office
- engineering office
- patent office
- planning office
- plant office
- production control office
- production engineering office
- production office
- programming office
- progress office
- system manager's office
- technical officeEnglish-Russian dictionary of mechanical engineering and automation > office
31 work
1) работа; труд || работать2) загрузка; работа, объём работы; задание по работе3) место работы, должность4) изделие; произведение; продукция5) pl завод; фабрика; мастерская6) pl строительные работы; сооружения7) обработка || обрабатывать8) действовать; приводить в действие; управлять9) разрабатывать; эксплуатировать; вести предприятие- at work- work off- work out- work up- bad work- day work- job work32 cost
1. n1) цена; стоимость; себестоимость2) обыкн. pl расходы, издержки, затраты3) pl судебные издержки, судебные расходы
- absorbed costs
- accident costs
- acquisition cost
- actual cost
- actual costs
- actual manufacturing cost
- added cost
- additional cost
- adjusted historical cost
- administration costs
- administrative costs
- administrative and management costs
- administrative and operational services costs
- advertising costs
- after costs
- after-shipment costs
- aggregate costs
- agreed cost
- airfreight cost
- allocable costs
- allowable costs
- alternative costs
- amortization costs
- amortized cost
- ancillary costs
- annual costs
- anticipated costs
- applied cost
- arbitration costs
- assembly costs
- assessed cost
- average cost
- average costs
- average cost per unit
- average variable costs
- avoidable costs
- back-order costs
- basic cost
- billed cost
- book cost
- borrowing cost
- breakage cost
- break-even costs
- budget costs
- budgeted cost
- budgeted costs
- budgeted operating costs
- building costs
- burden costs
- calculated costs
- capacity costs
- capital costs
- capital floatation costs
- carriage costs
- carrying cost
- carrying costs
- centrally-managed costs
- changeover costs
- cleaning costs
- clerical costs
- closing costs
- collection costs
- combined cost
- commercial cost
- commercial costs
- committed costs
- common staff costs
- comparative costs
- competitive costs
- competitive marginal costs
- complaint costs
- conditional cost
- consequential costs
- considerable costs
- constant cost
- constant costs
- construction costs
- contract cost
- contractual costs
- controllable costs
- court costs
- crane costs
- credit costs
- cumulative costs
- current cost
- current costs
- current outlay costs
- current standard cost
- cycle inventory costs
- debt-servicing costs
- declining costs
- decorating costs
- decreasing costs
- defect costs
- defence costs
- deferred costs
- deficiency costs
- degressive costs
- delivery costs
- departmental costs
- depleted cost
- depreciable cost
- depreciated cost
- depreciated replacement cost
- depreciation costs
- designing costs
- deterioration costs
- development costs
- differential costs
- direct costs
- direct labour costs
- direct operating costs
- direct payroll costs
- discretionary fixed costs
- dismantling costs
- distribution costs
- distribution marketing cost
- domestic resource costs
- double-weighted borrowing cost
- downtime costs
- economic costs
- eligible costs
- engineering costs
- entry cost
- environmental costs
- equipment capital costs
- erection costs
- escalating costs
- escapable costs
- estimated cost
- estimated costs
- evaluation cost
- excess cost
- excess costs
- excessive costs
- exhibition costs
- exploration costs
- extra costs
- extra and extraordinary costs
- extraordinary costs
- fabrication cost
- factor cost
- factor costs
- factory cost
- factory costs
- factory overhead costs
- failure costs
- farm production costs
- farmer's cost
- farming costs
- feed costs
- fertilizing costs
- final cost
- financial costs
- financing costs
- first cost
- fixed costs
- fixed capital replacement costs
- flat cost
- floatation costs
- food costs
- foreign housing costs
- formation costs
- freight costs
- fuel costs
- full cost
- full costs
- funding cost
- general costs
- general running costs
- government-controlled production costs
- guarantee costs
- harvesting costs
- haul costs
- haulage costs
- heavy costs
- hedging cost
- hidden costs
- high cost
- hiring costs
- historical cost
- hospitality costs
- hotel costs
- hourly costs
- idle capacity costs
- idle time costs
- implicit costs
- implied interest costs
- imputed costs
- incidental costs
- increasing costs
- incremental costs
- incremental cost of capital
- incremental costs of circulation
- incremental costs of service
- incurred costs
- indirect costs
- indirect labour costs
- indirect manufacturing costs
- indirect payroll costs
- indirect production costs
- individual costs
- industrial costs
- industry-average costs
- initial cost
- inland freight cost
- inspection costs
- installation costs
- insurance costs
- insured cost
- intangible costs
- integrated cost
- interest costs
- inventoriable costs
- inventory cost
- inventory costs
- inventory acquisition costs
- inventory possession costs
- investigation costs
- investment costs
- invoiced cost
- issuing cost
- joint cost
- labour costs
- landed cost
- launching cost
- launching costs
- layoff costs
- legal costs
- legitimate costs
- life cycle costs
- life repair cost
- liquidation cost
- litigation costs
- living costs
- loading costs
- loan cost
- long-run average costs
- long-run marginal costs
- low costs
- low operating costs
- lump-sum costs
- machining cost
- maintenance costs
- maintenance-and-repair costs
- management costs
- man-power cost
- man-power costs
- manufacturing cost
- manufacturing costs
- manufacturing overhead costs
- marginal costs
- marginal-factor costs
- maritime costs
- marketing costs
- material costs
- material handling costs
- merchandising costs
- miscellaneous costs
- mixed cost
- mounting costs
- net cost
- nominal cost
- nonmanufacturing costs
- obsolescence costs
- offering cost
- one-off costs
- one-off costs of acquiring land, buildings and equipment
- one-shot costs
- operating costs
- operation costs
- operational costs
- opportunity costs
- order cost
- ordering cost
- order initiation cost
- ordinary costs
- organization costs
- organizational costs
- original cost
- original cost of the assets
- original cost of capital
- out-of-pocket costs
- overall cost
- overall costs
- overhead costs
- overtime costs
- own costs
- owning costs
- packaging cost
- packing cost
- past costs
- past sunk costs
- payroll cost
- payroll costs
- penalty cost
- penalty costs
- period costs
- permissible costs
- personnel costs
- piece costs
- planned costs
- postponable costs
- predetermined costs
- prepaid costs
- preproduction costs
- prime cost
- processing costs
- procurement costs
- product cost
- production cost
- production costs
- product unit cost
- progress-generating costs
- progressive costs
- prohibitive costs
- project costs
- project development cost
- projected costs
- promotional costs
- protected costs
- publicity costs
- purchase costs
- purchasing costs
- pure costs of circulation
- quality costs
- quality-inspection costs
- real cost
- real costs
- recall costs
- reconstruction cost
- recoverable cost
- recurring costs
- reduction costs
- reimbursable cost
- relative cost
- relevant costs
- removal costs
- renewal cost
- reoperating costs
- reoperation costs
- reorder cost
- repair cost
- repair costs
- replacement cost
- replacement costs
- replacement cost at market rates
- replacement cost of borrowing
- replacement cost of capital assets
- replacement cost of equipment
- replacement depreciation cost
- replenishment cost
- reproduction cost
- reproduction costs
- research costs
- research and development costs
- reservation costs
- rework costs
- rising costs
- road maintenance costs
- running costs
- run-on costs
- salvage cost
- salvage costs
- scheduled costs
- scrap cost
- selling costs
- semi-variable costs
- service costs
- servicing costs
- setting-up costs
- set-up costs
- shadow costs
- shelter costs
- shipping costs
- shortage costs
- single cost
- social costs
- social marginal costs
- social overhead costs
- sorting costs
- special costs
- specification costs
- spoilage costs
- staff costs
- stand costs
- standard cost
- standard costs
- standard direct labour costs
- standard direct materials cost
- standard factory overhead cost
- standing costs
- start-up costs
- stepped costs
- stocking cost
- stockout costs
- storage costs
- sunk costs
- supervision costs
- supplementary costs
- supplementary costs of circulation
- tangible costs
- target cost
- target costs
- taxable cost of shares
- tentative cost
- time-related cost
- total cost
- training cost
- training costs
- transaction costs
- transfer costs
- transhipment costs
- transport costs
- transportation costs
- travel costs
- travelling costs
- trim costs
- true cost
- true costs
- trust cost
- unamortized cost
- unavoidable costs
- underwriting cost
- unexpired costs
- unit cost
- unit costs
- unloading costs
- unrecovered cost
- unscheduled costs
- upkeep costs
- upward costs
- utility's costs
- variable costs
- variable capital costs
- wage costs
- war costs
- warehouse costs
- warehousing costs
- weighted average cost
- welfare costs
- wintering costs
- working cost
- working costs
- costs for bunker
- costs for storing
- costs of administration
- cost of appraisal
- cost of arbitration
- cost of borrowing
- cost of boxing
- cost of bunker
- cost of capital
- cost of capital deeping
- cost of carriage
- cost of carry
- cost of carrying inventory
- costs of circulation
- cost of civil engineering work
- cost of construction
- cost of a contract
- cost of credit
- cost of delivery
- cost of demonstration
- cost of discounting
- cost of disposal
- cost of education
- cost of equipment
- cost of equity capital
- cost of filing
- cost of financing
- cost of fixed capital
- cost of funds
- cost of goods
- cost of haulage
- cost of hotel accommodation
- costs of housing
- costs of idleness
- cost of installation
- cost of insurance
- costs of inventory
- cost of issue
- cost of labour
- cost of a licence
- cost of living
- cost of manpower
- cost of manufacture
- cost of manufactured goods
- cost of manufacturing
- costs of material
- costs of material inputs
- cost of money
- cost of obtaining funds
- costs of operations
- cost of an order
- cost of packaging
- cost of packing
- cost of postage
- costs of production
- cost of product sold
- cost of a project
- cost of publication
- cost of putting goods into a saleable condition
- cost of reclamation
- cost of reinsurance
- costs of reliability
- cost of renting
- cost of renting a trading post
- cost of repairs
- costs of routine maintenance
- cost of sales
- costs of sales
- cost of scrap
- cost of service
- cost of servicing
- costs of shipping
- cost of storage
- cost of a suit
- costs of supervision
- cost of tare
- costs of trackage
- costs of transportation
- cost of work
- cost per inquiry
- costs per unit
- above cost
- at cost
- at the cost of
- at extra cost
- below cost
- less costs
- minus costs
- next to cost
- under cost
- with costs
- without regard to cost
- exclusive of costs
- free of cost
- cost of market, whichever is lower
- cost plus percentage of cost
- absorb costs
- allocate costs
- assess the cost
- assess costs
- assume costs
- award costs against smb.
- bear costs
- calculate costs
- charge cost
- compute the cost
- cover the cost
- cover costs
- curb costs
- curtail costs
- cut down on costs
- cut production costs
- decrease the cost
- defray the costs
- determine the cost
- disregard costs
- distort the cost
- distribute costs
- entail costs
- estimate costs
- exceed the cost
- impose costs
- increase cost
- incur costs
- inflict economic and social costs
- involve costs
- itemize costs
- keep down costs
- meet the cost
- meet costs
- offset the cost
- offset the costs
- offset high interest costs
- overestimate production costs
- pay costs
- prune away costs
- push up costs
- recompense the cost
- recoup the cost
- recover costs
- reduce costs
- refund the cost
- revise the cost
- save costs
- sell at a cost
- share the cost
- slash costs
- split up the cost
- trim costs
- write off costs
- write off costs against revenues
- write off capital costs2. v1) стоить33 Smith, Sir Francis Pettit
SUBJECT AREA: Ports and shipping[br]b. 9 February 1808 Copperhurst Farm, near Hythe, Kent, Englandd. 12 February 1874 South Kensington, London, England[br]English inventor of the screw propeller.[br]Smith was the only son of Charles Smith, Postmaster at Hythe, and his wife Sarah (née Pettit). After education at a private school in Ashford, Kent, he took to farming, first on Romney Marsh, then at Hendon, Middlesex. As a boy, he showed much skill in the construction of model boats, especially in devising their means of propulsion. He maintained this interest into adult life and in 1835 he made a model propelled by a screw driven by a spring. This worked so well that he became convinced that the screw propeller offered a better method of propulsion than the paddle wheels that were then in general use. This notion so fired his enthusiasm that he virtually gave up farming to devote himself to perfecting his invention. The following year he produced a better model, which he successfully demonstrated to friends on his farm at Hendon and afterwards to the public at the Adelaide Gallery in London. On 31 May 1836 Smith was granted a patent for the propulsion of vessels by means of a screw.The idea of screw propulsion was not new, however, for it had been mooted as early as the seventeenth century and since then several proposals had been advanced, but without successful practical application. Indeed, simultaneously but quite independently of Smith, the Swedish engineer John Ericsson had invented the ship's propeller and obtained a patent on 13 July 1836, just weeks after Smith. But Smith was completely unaware of this and pursued his own device in the belief that he was the sole inventor.With some financial and technical backing, Smith was able to construct a 10 ton boat driven by a screw and powered by a steam engine of about 6 hp (4.5 kW). After showing it off to the public, Smith tried it out at sea, from Ramsgate round to Dover and Hythe, returning in stormy weather. The screw performed well in both calm and rough water. The engineering world seemed opposed to the new method of propulsion, but the Admiralty gave cautious encouragement in 1839 by ordering that the 237 ton Archimedes be equipped with a screw. It showed itself superior to the Vulcan, one of the fastest paddle-driven ships in the Navy. The ship was put through its paces in several ports, including Bristol, where Isambard Kingdom Brunel was constructing his Great Britain, the first large iron ocean-going vessel. Brunel was so impressed that he adapted his ship for screw propulsion.Meanwhile, in spite of favourable reports, the Admiralty were dragging their feet and ordered further trials, fitting Smith's four-bladed propeller to the Rattler, then under construction and completed in 1844. The trials were a complete success and propelled their lordships of the Admiralty to a decision to equip twenty ships with screw propulsion, under Smith's supervision.At last the superiority of screw propulsion was generally accepted and virtually universally adopted. Yet Smith gained little financial reward for his invention and in 1850 he retired to Guernsey to resume his farming life. In 1860 financial pressures compelled him to accept the position of Curator of Patent Models at the Patent Museum in South Kensington, London, a post he held until his death. Belated recognition by the Government, then headed by Lord Palmerston, came in 1855 with the grant of an annual pension of £200. Two years later Smith received unofficial recognition when he was presented with a national testimonial, consisting of a service of plate and nearly £3,000 in cash subscribed largely by the shipbuilding and engineering community. Finally, in 1871 Smith was honoured with a knighthood.[br]Principal Honours and DistinctionsKnighted 1871.Further ReadingObituary, 1874, Illustrated London News (7 February).1856, On the Invention and Progress of the Screw Propeller, London (provides biographical details).Smith and his invention are referred to in papers in Transactions of the Newcomen Society, 14 (1934): 9; 19 (1939): 145–8, 155–7, 161–4, 237–9.LRDBiographical history of technology > Smith, Sir Francis Pettit
34 Vermuyden, Sir Cornelius
SUBJECT AREA: Civil engineering[br]b. c. 1590 St Maartensdijk, Zeeland, the Netherlandsd. 4 February 1656 probably London, England[br]Dutch/British civil engineer responsible for many of the drainage and flood-protection schemes in low-lying areas of England in the seventeenth century.[br]At the beginning of the seventeenth century, several wealthy men in England joined forces as "adventurers" to put their money into land ventures. One such group was responsible for the draining of the Fens. The first need was to find engineers who were versed in the processes of land drainage, particularly when that land was at, or below, sea level. It was natural, therefore, to turn to the Netherlands to find these skilled men. Joachim Liens was one of the first of the Dutch engineers to go to England, and he started work on the Great Level; however, no real progress was made until 1621, when Cornelius Vermuyden was brought to England to assist in the work.Vermuyden had grown up in a district where he could see for himself the techniques of embanking and reclaiming land from the sea. He acquired a reputation of expertise in this field, and by 1621 his fame had spread to England. In that year the Thames had flooded and breached its banks near Havering and Dagenham in Essex. Vermuyden was commissioned to repair the breach and drain neighbouring marshland, with what he claimed as complete success. The Commissioners of Sewers for Essex disputed this claim and whthheld his fee, but King Charles I granted him a portion of the reclaimed land as compensation.In 1626 Vermuyden carried out his first scheme for drainage works as a consultant. This was the drainage of Hatfield Chase in South Yorkshire. Charles I was, in fact, Vermuyden's employer in the drainage of the Chase, and the work was undertaken as a means of raising additional rents for the Royal Exchequer. Vermuyden was himself an "adventurer" in the undertaking, putting capital into the venture and receiving the title to a considerable proportion of the drained lands. One of the important elements of his drainage designs was the principal of "washes", which were flat areas between the protective dykes and the rivers to carry flood waters, to prevent them spreading on to nearby land. Vermuyden faced bitter opposition from those whose livelihoods depended on the marshlands and who resorted to sabotage of the embankments and violence against his imported Dutch workmen to defend their rights. The work could not be completed until arbiters had ruled out on the respective rights of the parties involved. Disagreements and criticism of his engineering practices continued and he gave up his interest in Hatfield Chase. The Hatfield Chase undertaking was not a great success, although the land is now rich farmland around the river Don in Doncaster. However, the involved financial and land-ownership arrangements were the key to the granting of a knighthood to Cornelius Vermuyden in January 1628, and in 1630 he purchased 4,000 acres of low-lying land on Sedgemoor in Somerset.In 1629 Vermuyden embarked on his most important work, that of draining the Great Level in the fenlands of East Anglia. Francis Russell, 4th Earl of Bedford, was given charge of the work, with Vermuyden as Engineer; in this venture they were speculators and partners and were recompensed by a grant of land. The area which contains the Cambridgeshire tributaries of the Great Ouse were subject to severe and usually annual flooding. The works to contain the rivers in their flood period were important. Whilst the rivers were contained with the enclosed flood plain, the land beyond became highly sought-after because of the quality of the soil. The fourteen "adventurers" who eventually came into partnership with the Earl of Bedford and Vermuyden were the financiers of the scheme and also received land in accordance with their input into the scheme. In 1637 the work was claimed to be complete, but this was disputed, with Vermuyden defending himself against criticism in a pamphlet entitled Discourse Touching the Great Fennes (1638; 1642, London). In fact, much remained to be done, and after an interruption due to the Civil War the scheme was finished in 1652. Whilst the process of the Great Level works had closely involved the King, Oliver Cromwell was equally concerned over the success of the scheme. By 1655 Cornelius Vermuyden had ceased to have anything to do with the Great Level. At that stage he was asked to account for large sums granted to him to expedite the work but was unable to do so; most of his assets were seized to cover the deficiency, and from then on he subsided into obscurity and poverty.While Cornelius Vermuyden, as a Dutchman, was well versed in the drainage needs of his own country, he developed his skills as a hydraulic engineer in England and drained acres of derelict flooded land.[br]Principal Honours and DistinctionsKnighted 1628.Further ReadingL.E.Harris, 1953, Vermuyden and the Fens, London: Cleaver Hume Press. J.Korthals-Altes, 1977, Sir Cornelius Vermuyden: The Lifework of a Great Anglo-Dutchman in Land-Reclamation and Drainage, New York: Alto Press.KM / LRDBiographical history of technology > Vermuyden, Sir Cornelius
35 construction
1) строительство; стройка; постройка;2) конструкция; сооружение; строение; здание•- construction of diagram - construction of penetration macadam - construction of traffic facilities - adobe construction - agricultural building construction - airfield construction - air-supported construction - airtight construction - aseismic constructions - avalanche-protection construction - balanced construction of plywood - balloon frame construction - basic construction - BBS construction - beam and girder construction - bearing-wall construction - block construction - brick construction - bridge construction - building construction - cable constructions - cage construction - capital construction - carry-over construction - cast-in-place construction - cast-in-situ constructions - catenary construction - civil engineering construction - civilian construction - completion of construction - complex construction - composite construction - concrete construction - concrete-bent construction - contract construction - cost of construction - cross-wall construction - dam construction - date of completion of construction - delay in construction - delay in the construction of a project - double-skin construction - dry construction - dry-wall construction - dust-tight construction - environment-oriented home construction - fast construction - feasibility of the construction of a project - fill construction - fireproof construction - fixed period of construction - frame construction - fully-prefabricated construction - girderless construction - glued construction - high-rise construction - hipped-plate construction - hollow-wood construction - housing construction - hydraulic engineering construction - incombustible construction - incompleted construction project - individual housing construction - industrial building construction - industrialized construction - industrialized construction with apartments modules - integrated construction - laminated construction - large-panel constructions - large-sized block constructions - layer-built construction - levee construction - lift-slab construction - lightweight construction - load-carrying construction - lumber construction - lumber core construction - masonry construction - metal construction - methods of construction - mixed construction - modular construction - municipal construction - multiply construction - mushroom construction - mushroom slab construction - non-fireproof construction - ordinary construction - organization of construction - pace of construction - pan construction - panel construction - panelled construction - partially-prestressed composite construction - period of construction - plastic construction - plated construction - platform frame construction - pneumatic construction - portable unit construction - post-and-beam construction - posttensioned construction - power and water supply of the construction - power plant construction - pre-assembled member construction - precast construction - precast and cast-in-situ construction - precast concrete construction - precast panel construction - prefabricated construction - prefabricated demountable constructions - preload construction of tank - pre-posttensioned concrete construction - prestressed constructions - pretensioned concrete constructions reinforced with wires - pretensioned concrete constructions - project construction - protected metal construction - rammed earth construction - rammed loam construction - region of construction - reinforced brick construction - reinforced concrete construction - reinforced masonry construction - road construction - road-mix construction - sandwich construction - section construction - sectional construction - shell construction - simple in construction - skeleton construction - slow-burning construction - space grid constructions - stage construction - steel construction - steel-frame construction - steel-plate constructions - stone constructions - supporting construction - suspended constructions - temporary construction - thin-shell construction - thin-slab construction - thin-wall construction - total-prefabricated construction - two-dimensional construction - under construction - unit construction - urban construction - veneered construction - wall-bearing construction - water-front construction - welded construction - winter building construction - wood construction36 change
tʃeɪndʒ
1. сущ.
1) а) перемена;
изменение, сдвиг( from, into, to, in, of) ;
замена (любого рода, напр., игрока в футболе) ;
череда, чередование to bring about, effect, make a change ≈ внести изменения to undergo change ≈ подвергаться изменениям, претерпевать изменения drastic, great change ≈ большие перемены little change ≈ незначительная модификация marked change ≈ значительные перемены momentous change ≈ мгновенные изменения needed change ≈ необходимые изменения quick change ≈ быстрые изменения radical, striking, sweeping change ≈ радикальные перемены sudden change ≈ внезапные изменения, внезапный сдвиг welcome change ≈ желанные перемены Change, constant change, is the law of organic life. ≈ Изменение, вечное непрекращающееся изменение - закон органической жизни. There was little change in his condition. ≈ Его состояние не изменилось. a change occurs, takes place ≈ происходит изменение a change for the better ≈ изменение к лучшему the change from spring to summer ≈ переход от весны к лету (смена времен года) changes in personnel ≈ кадровые изменения the change of seasons ≈ смена времен года б) перен. смерть I went to my mother, and found her change was near. ≈ Я проведал мать и понял, что ей недолго осталось. в) муз. вариация;
модуляция ∙ social change change of pace change of air change of life for a change
2) что-л. взамен чего-л. другого а) смена (белья, платья) б) сдача;
мелкие деньги, мелочь to count, get, take one's change ≈ получить сдачу to give, make, return change for ≈ дать сдачу мелочью to keep the change ≈ оставить сдачу Сan you give me change for a pound? ≈ У Вас будет сдача с фунта? Passengers are requested to examine their tickets and change before leaving. ≈ Пассажиров просят проверять билеты и сдачу не отходя от кассы. small change no change given make change в) пересадка( на железной дороге, трамвае) г) авт. включение другой передачи, переключение передач, скоростей - change down - change up д) расплата, "должное";
возврат долга He gave me a real change, helped my son into University. ≈ Он мне оказал большую услугу - помог моему сыну поступить. not to get any change from smb. Take your change out of that! ≈ Вот тебе! Это тебе за то-то и то-то! (реплика в драке, в момент совершения мести и т.п.) ∙ change of heart hunt change
3) новолуние I still have fits, always with a change in the moon. ≈ У меня до сих пор на новолуние случаются припадки.
4) мн. а) отступление от канонического порядка колокольного звона (от самого большого колокола к самому маленькому) б) тот или иной тип колокольного звона (любой порядок колоколов) Four bells admit twenty-four changes in ringing. ≈ Для четырех колоколов возможно двадцать четыре типа звонов. в) та или иная манера игры на колоколах ∙ ring the changes
5) (Change) (лондонская) биржа (можно рассматривать как сокр. от Exchange, что, впрочем, этимологически неверно) Good, honest, generous men at home, will be wolves and foxes on change! ≈ Дома они сущие ангелы, честные до мозга костей, но на бирже они кровожадные волки и хитрые лисы!
6) шотл. пивная ∙ to get no change out of smb. разг. ≈ ничего не добиться от кого-л. to take the change on smb. разг. ≈ обмануть кого-л.
2. гл.
1) менять(ся), изменять(ся) ;
заменять, сменять School has changed the boy into a coward. ≈ Школа сделала его трусом. I am the Lord, I change not. ≈ Ибо Я - Господь, Я не изменяюсь ( Мал 3,
6.) Nothing will die, all things will change. ≈ Ничто не умирает, но все меняется (Лаун-Теннисон) - change colour change countenance change hands change to change into change for the better change for the worse Syn: alter, convert, modify, transfigure, transform, transmogrify, transmute, render Ant: maintain, stabilize, sustain
4)
2) заменять одно на другое а) переодеваться;
одеваться к ужину, надевать вечернее платье to change from, change out of ≈ снимать что-л. I shall have to change from (или out of) these wet clothes. ≈ Мне надо переодеться, я весь мокрый. to change into ≈ надевать что-л. Syn: to change oneself б) делать пересадку, пересаживаться( на другой поезд, трамвай и т. п.) (to) all change! ≈ пересадка! в) менять, обменивать (о деньгах) I should like to change these pounds into dollars. ≈ Мне нужно обменять фунты на доллары. г) меняться, обмениваться( чем-л.) I'd like to change this dress for one in a larger size. ≈ Я бы хотел обменять это платье на такое же, но большего размера. д) авт. переключать передачу - change up - change down е) переходить в другую фазу (о луне) ж) переезжать, менять местожительство, место работы If a vicar dies or changes. ≈ Если викарий умрет или будет переведен на другую кафедру. ∙ change bandage - change one's mind change sides Syn: substitute, replace, exchange, interchange
3) изменяться до полной неузнаваемости, менять сущность а) скисать;
сгнить;
портиться б) превращаться ∙ change back change from change into change down change over change round change up change with to change horses in the midstream ≈ "менять коней на переправе", производить крупные перемены в критический или опасный момент перемена, изменение;
- * of weather перемена погоды;
- * of scene перемена обстановки;
- * of the scenes (театроведение) перемена декораций;
- * of heart изменение намерений;
переворот в убеждениях или чувствах;
- * of pace смена ритма, скорости, хода;
резкая смена образа жизни и деятельности;
внесение разнообразия в жизнь;
- * of front( военное) перемена фронта;
коренные изменения;
поворот на 180 градусов;
- * of air перемена обстановки;
(техническое) обмен воздуха;
- * of station( военное) командировка, перевод в другую часть;
- * of leads перемена ноги на галопе;
- * of tide чередование приливно-отливных течений;
- subject to * могущий измениться;
подлежащий изменению;
- many *s have taken place многое изменилось;
- the * from winter to spring переход от зимы к весне;
- * gear (техническое) механизм изменения хода и скоростей;
- * part (техническое) сменная деталь;
- * switch( техническое) переключатель замена, смена;
подмена;
разнообразие;
- for a * для разнообразия;
- you need a * вам нужно переменить обстановку;
- this journey will be a * for you поездка внесет в вашу жизнь некоторое разнообразие смена (белья) ;
- * station( военное) пункт обмена обмундирования;
- a * of underwear смена белья размен (денег) ;
- to give * for a pound note разменять банковый билет в 1 фунт стерлингов обмен (на другую валюту) сдача;
- he got ninepence * он получил 9 пенсов сдачи;
- keep the *! сдачи не нужно разменная монета;
мелкие деньги, мелочь;
что-л мелкое;
пустяки, мелочи жизни пересадка ( на железной дороги) ;
- no * for Oxford до Оксфорда без пересадки;
(здесь) пересадки на Оксфорд нет;
- to make a * at N. делать пересадку в N. (специальное) превращение;
- chemical * химическое превращение (астрономия) новая фаза Луны, новолуние обыкн. pl трезвон( колоколов) - to ring the *s вызванивать на колоколах (шотландское) кабачок, пивная "параграф" (фигурное катание) > to get no * out of smb. ничего не добиться от кого-л;
ничего не выведать у кого-л;
> to take the * out of smb. отомстить кому-л;
> take your * out of that! получайте!, вот вам!;
> to ring the * повторять, твердить на все лады одно и то же;
быстро менять одежду и внешний вид;
переодеваться, маскироваться;
менять, изменять;
переделывать;
- to * the course( морское) изменять курс;
- to * one's address переменить адрес, переехать;
- to * colour покраснеть или побледнеть;
- to * countenance измениться в лице;
- to * step сменить ногу;
- * arms!( военное) передать оружие! (из одной руки в другую, с одного плеча на другое) - success *d him добившись успеха, он изменился;
- we can't * human nature человеческую природу не переделаешь;
- we *d the room by making a new window мы перестроили комнату, прорезав новое окно меняться, изменяться;
- the weather *s very often погода часто меняется;
- times * времена меняются;
- the wind has *d from north to east северный ветер перешел в восточный;
- how he has *d как он изменился! - they are changing from their old ideas они отказываются от своих старых представлений;
- I could not wish it *d я бы хотел, чтобы все оставалось по-прежнему обменивать;
- take the hat back to the shop and * it отнеси шляпу в магазин и поменяй ее обмениваться, меняться;
поменяться с кем-л местами переодеваться;
- to * for dinner переодеться к обеду;
- to * into a new suit переодеться в новый костюм;
- he *d his clothes он переоделся;
менять белье, пеленки;
- to * a bed перестелить постель, сменить постельное белье;
- to * a baby (разговорное) перепеленать ребенка превращать;
- the magician *d a watch into a rabbit фокусник превратил часы в кролика превращаться;
- caterpillars * into butterflies гусеницы превращаются в бабочек;
- to * into a bird превратиться в птицу, обернуться птицей;
- to * into a miser превратиться в скрягу, стать скрягой портиться;
- this colour *s эта краска линяет( разговорное) портить;
- the milk is *d молоко свернулось переходить в новую фазу (о луне) ;
- the moon will * on the fourteenth новолуние наступит четырнадцатого разменивать, менять ( деньги) ;
- to * a pound note разменять банковый билет в один фунт;
- to * a cheque получить наличные деньги по чеку обменивать (другую валюту) ;
- to * pounds into francs обменять фунты на франки делать пересадку, пересаживаться;
- to * from one train to another пересаживаться на другой поезд;
- all*! поезд дальше не идет! > to * one's mind передумать, изменить свое решение;
> to * hands переходить из рук в руки;
переходить к другому владельцу;
> the house has *d hands four times дом переходил от владельца к владельцу четыре раза;
> to * the hand переменить направление (конный спорт) ;
> to * one's skin измениться до неузнаваемости;
"перекраситься";
> to * face повернуться на 180 градусов, переменить фронт, повернуться в другую сторону;
> to * sides перебежать в лагерь противника;
изменить своим убеждениям;
> to * one's note переменить тон, заговорить по-иному;
> to * horses in midstream производить крупные перемены в опасный момент;
менять лошадей на переправе address ~ вчт. изменение адреса address ~ вчт. переадресация administrative ~ административная реорганизация ~ делать пересадку, пересаживаться (to - на другой поезд, трамвай и т. п.) ;
all change! пересадка! change биржа ~ делать пересадку, пересаживаться (to - на другой поезд, трамвай и т. п.) ;
all change! пересадка! ~ делать пересадку ~ замена ~ изменение ~ изменять Change (сокр. от Exchange) лондонская биржа ~ мелкие деньги ~ мелочь ~ менять(-ся), изменять(ся) ;
сменять, заменять;
times change времена меняются ~ менять ~ менять деньги ~ новая фаза Луны, новолуние ~ обменивать(ся) ~ обменивать ~ переделывать ~ перемена;
изменение;
сдвиг;
social change общественные (или социальные) сдвиги ~ перемена ~ переодеваться ~ пересадка (на железной дороге, трамвае) ;
no change for Oxford в Оксфорд без пересадки ~ пересадка ~ to ~ up (down) авто переходить на большую (меньшую) скорость ~ подмена ~ размен (денег) ~ размен денег ~ разменная монета, сдача ~ разменная монета ~ разменять (деньги) ~ разнообразие;
for a change для разнообразия ~ разнообразие ~ сдача;
мелкие деньги, мелочь ~ сдача ~ скисать, прокисать;
портиться ~ смена (белья, платья) ~ смена ~ (обыкн. pl) трезвон, перезвон колоколов to ~ colour покраснеть или побледнеть to ~ countenance измениться в лице ~ for reasons of consistency изменение из соображений совместимости ~ gear тех. механизм перемены направления движения to ~ hands переходить из рук в руки;
переходить к другому владельцу hands: hands: change ~ переходить в другие руки to ~ horses in the midstream производить крупные перемены в критический или опасный момент ~ in behaviour изменение поведения ~ in cash value изменение стоимости в денежном выражении ~ in currency exchange rate изменение валютного курса ~ in currency exchange rate изменение обменного курса ~ in cyclical trend полит.эк. изменение периодического тренда ~ in definition изменение формулировки ~ in direction перемена курса ~ in exchange rates изменение валютных курсов ~ in foreign reserves изменение валютных запасов ~ in interest rates изменение процентных ставок ~ in inventories изменение уровней запасов ~ in net foreign reserves изменение чистой суммы валютных резервов ~ in net forward sales бирж. изменение объема нетто-продаж на срок ~ in order of priorities изменения порядка очередности ~ in practice изменение процедуры ~ in presentation of accounts изменение порядка представления отчетности ~ in price изменение цен ~ in statistical recording изменение статистической отчетности ~ in stock изменение уровня запасов ~ in stockbuilding изменение порядка создания запасов ~ in timing изменение чередования периодов ~ in work in progress изменение выполняемой работы ~ of address изменение адреса ~ of address модификация адреса ~ of address переадресование ~ of air тех. обмен воздуха ~ of air перемена обстановки ~ of attitude изменение отношения ~ of government смена правительства ~ of level изменение уровня ~ of life мед. климактерий ~ of managers смена руководителей ~ of name изменение названия ~ of ownership раздел собственности ~ of policy-orientation изменение политической ориентации ~ of profession смена профессии ~ of supplier смена поставщика ~ of system изменение системы ~ of trade смена профессии to ~ one's mind передумать, изменить решение mind: to be of the same ~ оставаться при своем мнении;
to speak one's mind говорить откровенно;
to change (или to alter) one's mind передумать;
to my mind по моему мнению ~ over меняться местами ~ over вчт. переключать ~ over переходить (to - на что-л.) to ~ sides перейти на другую сторону (в политике, в споре и т. п.) sides: sides: change ~ изменять точку зрения control ~ вчт. смена режима управления de facto ~ фактическое изменение engineering ~ вчт. техническое изменение exact ~ точное изменение exchange rate ~ изменение валютного курса fee ~ изменение размера сбора ~ разнообразие;
for a change для разнообразия generational ~ смена поколений to get no ~ out (of smb.) разг. ничего не добиться (от кого-л.) job ~ продвижение по службе minor ~ незначительное изменение ~ пересадка (на железной дороге, трамвае) ;
no change for Oxford в Оксфорд без пересадки postproduction ~ вчт. доработка в процессе изготовления price ~ нетто-изменение курса ценной бумаги в течение рабочего дня price ~ переоценка public ~ вчт. общедоступное изменение random ~s случайные изменения to ring the changes (on) повторять, твердить на все лады одно и то же runtime ~ вчт. изменение на период прогона small ~ мелкая разменная монета small ~ мелкие деньги, мелочь small ~ (что-л.) мелкое, незначительное small ~ небольшое изменение small ~ незначительное изменение small ~ несущественное изменение ~ перемена;
изменение;
сдвиг;
social change общественные (или социальные) сдвиги social ~ изменения в обществе social ~ социальная перемена (перемены в жизни общества) step ~ вчт. ступенчатое изменение structural ~ структурное изменение to take the ~ (on smb.) разг. обмануть (кого-л.) to take the ~ out of a person разг. отомстить (кому-л.) ~ менять(-ся), изменять(ся) ;
сменять, заменять;
times change времена меняются37 science
ˈsaɪəns сущ.
1) наука;
область науки to advance, foster, promote science ≈ двигать науку, работать для науки, развивать науку applied science exact science domestic science information science library science linguistic science military science natural science naval science physical science political science social science space science man of science science park Syn: study
2) коллект. естественные науки (тж. natural science/sciences, physical sciences) Ant: arts
3) мастерство, искусство, умение science of chess ≈ мастерство шахматной игры science of manners ≈ умение вести себя Syn: ability, skill
4) техника, техничность( теоретические знания в отличие от практического их применения) The development of the photographic image is both an art and a science. ≈ Для того, чтобы проявить фотоизображение, необходим как навык, так и точные теоретические знания. Ant: art I
1.
5) амер. (Science) Христианская наука (название религиозной вероучения и организации, основанной в США в 1866 году) Syn: Christian Science
5) уст. знание Syn: knowledge наука - pure * чистая наука - social *s общественные науки - applied * прикладная наука - engineering *s технические науки - the * of language наука о языке - the classification of *s классификация наук - man of * ученый, человек науки - the methods of * научные методы - the progress of * успехи в области науки - to reduce smth. to a * превратить что-л. в науку - to apply * to farming внедрить научные методы в сельское хозяйство( собирательнле) естественные науки (тж. natural *s, physical *s) - physics, chemistry and other *s физика. химия и др. естественные науки - materials * материаловедение - * master,* teacher учитель физики, химии, биологии и т. п. (S.) (религия) "Христианская наука" (религиозная организация и этическое учение) (спортивное) тренированность высокий класс, мастерство техничность - a boxer who lacks * боксер без достаточной технической подготовки (устаревшее) знание;
познание > the * of self-defence бокс;
самбо > the noble * (of defence) бокс;
фехтование administrative ~ наука управления ~ наука;
man of science ученый;
applied science прикладная наука computer ~ вычислительная техника computer ~ информатика computer ~ теория вычислительных машин и систем economic ~ экономическая наука forensic ~ судебная наука ~ умение, ловкость;
техничность;
in judo science is more important than strength в борьбе дзюдо ловкость важнее силы information ~ информатика information ~ наука об информации legal ~ правоведение ~ наука;
man of science ученый;
applied science прикладная наука medico-actuarial ~ страховая медицина science собир. естественные науки (тж. natural science или sciences, physical sciences) ~ уст. знание ~ наука;
man of science ученый;
applied science прикладная наука ~ наука ~ умение, ловкость;
техничность;
in judo science is more important than strength в борьбе дзюдо ловкость важнее силы social ~ социология social: ~ общественный;
социальный;
social science социология;
social security социальное обеспечение software ~ вчт. теория программного обеспечения system ~ вчт. системотехника theoretical computer ~ теория вычислительных систем38 science
[ʹsaıəns] n1. наукаapplied [fundamental] science - прикладная [фундаментальная] наука
man of science - учёный; человек науки
to reduce smth. to a science - превратить что-л. в науку
to apply science to farming - внедрить научные методы в сельское хозяйство
2. собир. естественные науки (тж. natural sciences, physical sciences)physics, chemistry and other sciences - физика, химия и другие естественные науки
science master, science teacher - учитель физики, химии, биологии и т. п.
3. (Science) = Christian Science4. спорт.1) тренированность2) высокий класс, мастерство3) техничность5. арх. знание; познание♢
the science of self-defence - бокс; самбоthe noble science (of defence) - шутл. а) бокс; б) фехтование
39 heat
1) жар
2) жаровой
3) забег
4) каление
5) нагревать
6) накаливать
7) натапливать
8) натопить
9) обогревать
10) плавочный
11) подогрев
12) подогревать
13) тепло
14) тепловоспринимающий
15) тепловый
16) теплозащитный
17) теплообменный
18) теплота
19) тепловой
20) тепловая энергия
21) нагреваться
22) накаливаться
23) греть
24) калильный
25) жаровый
26) котел
27) накалить
28) теплоемкость
29) калория
– accumulation of heat
– available heat
– blow heat
– bring to red heat
– by-product heat
– cold heat
– convection heat
– cupola heat
– diverted heat
– evaporation heat
– external heat
– finishing off a heat
– generate heat
– heat abstraction
– heat ageing
– heat balance
– heat barrier
– heat blower
– heat capacity
– heat carrier
– heat chamber
– heat conducting
– heat conduction
– heat conductivity
– heat conductor
– heat consumer
– heat content
– heat demand
– heat detector
– heat differential
– heat dissipation
– heat emission
– heat energy
– heat engine
– heat engineering
– heat exchange
– heat exchanger
– heat exchanging
– heat filter
– heat finishing
– heat flow
– heat generation
– heat generator
– heat input
– heat insulation
– heat log
– heat model
– heat of combustion
– heat of formation
– heat of superheat
– heat of vaporization
– heat peeling
– heat pick-up
– heat pipe
– heat production
– heat productivity
– heat rate
– heat rating
– heat rays
– heat recovery
– heat regeneration
– heat removal
– heat removing
– heat requirement
– heat resistance
– heat run
– heat sample
– heat schedule
– heat shield
– heat shielding
– heat shock
– heat sink
– heat source
– heat sterilization
– heat storage
– heat stress
– heat supply
– heat supplying
– heat tapping
– heat test
– heat time
– heat transfer
– heat transmission
– heat transmitting
– heat transport
– heat treatment
– heat utilization
– heat waves
– internal heat
– Joulean heat
– latent heat
– liberate heat
– low heat value
– low-grade heat
– melting heat
– overblow heat
– pour heat
– progress of heat
– quantity of heat
– radiant heat
– radiogenic heat
– recover heat
– red heat
– residual heat
– resistance to heat
– sensible heat
– specific heat
– store heat
– surplus heat
– total heat
– utilize heat
– viscous heat
– waste heat
– waste-gas heat
– welding heat
– work the heat
ablation heat shield — <cosm.> экран тепловой эрозионный
counter-current heat exchanger — противоточный теплообменник
cross-flow heat exchanger — теплообменник с перекрестным током
float-head heat exchanger — теплообменник с плавающей головкой
heat exchange coefficient — <phys.> коэффициент теплообмена
heat transfer coefficient — <phys.> коэффициент теплоотдачи, коэффициент теплопередачи
intermediate heat exchanger — <engin.> теплообменник промежутночный
mechanical equivalent of heat — механический эквивалент тепла
U-tube heat exchanger — теплообменник с У-образными трубками
40 work
1) работа
2) обрабатываемый
3) обрабатывать
4) поработать
5) поработаю
6) работы
7) рабочие
8) труд
9) сочинение
10) работать
11) вычислять
12) решать
13) деятельность
14) создание
15) действие
16) обработка
17) обработать
18) завод
– bench work
– cabinet work
– capacity for work
– chucking work
– continuous work
– day's work
– design work
– development work
– developmental work
– display work
– do the prelimary work
– erection work
– false work
– field work
– finishing work
– fitness for work
– in the course of the work
– indicator work
– involute work
– job work
– lathe work
– lattice work
– line work
– obseht-field work
– office work
– open work
– overtime work
– paysheet work
– permit to work
– piece work
– pilfering at work
– practical work
– pulse work
– rescue work
– scheduled work
– shaft work
– shift work
– team work
– turned work
– unfinished work
– unit of work
– volume of work
– work adit
– work coal
– work function
– work head
– work in progress
– work in shear
– work in stone
– work in tension
– work method
– work off
– work order
– work package
– work piece
– work point
– work readily
– work schedule
– work stone
– work the heat
– work to marking-out
– work train
research and development work — опытно-конструкторская работа
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