advanced engineer

Engineer Officer Advanced Course

Military: EOAC

ведущий инженер

advanced engineer, lead engineer, principal engineer

ведущий инженер

1) Engineering: principal engineer, senior engineer, senior project engineer

2) Railway term: development engineer

3) Economy: managing engineer

4) Astronautics: cognizant engineer

5) Atomic energy: chief engineer

6) Sakhalin energy glossary: lead discipline engineer (по какой-то специальности, дисциплине)

7) EBRD: leading engineer

8) Automation: advanced engineer

9) Sakhalin R: lead engineer (дисциплины)

10) Makarov: management engineer

11) oil&gas: Lead Engineer, Engineer In Charge

механическая мастерская

engineer's workshop

плавучий док - мастерская — floating dry dock workshop

работы, производимые мастерской — workshop services

мастерская по обслуживанию — maintenance workshop

подвижная мастерская на колесах — workshop lorry

мастерская главной базы — advanced base workshop

technisch

technisch I adj GEN technical technisch II adv GEN technically • technisch ausgereift IND high-tech • technisch fortgeschritten IND, WIWI technologically advanced • technisch möglich IND technically feasible

* * *

adj < Geschäft> technical

adv < Geschäft> technically ■ technisch ausgereift < Ind> high-tech ■ technisch fortgeschritten <Ind, Vw> technologically advanced ■ technisch möglich < Ind> technically feasible

* * *

technisch
technical, engineering;
• technisch bewandert techno-savvy;
• technische Abteilung engineering department;
• technisch bedingte Arbeitslosigkeit technological unemployment;
• großer technischer Aufwand major engineering;
• technische Ausbildung technical training;
• technische Ausführung technique;
• technischer Außendienst customer engineering;
• technischer Berater technical consultant (adviser);
• technischer Beruf technical profession;
• technische Beschaffenheit technicality;
• technische Betriebsabteilung technical (engineering) department;
• technischer Betriebsleiter chief engineer;
• technisches Büro engineering department, technical office;
• technische Daten engineering data;
• technische Einrichtungen engineering facilities;
• technische Einzelheiten technicalities, technical details;
• technische Errungenschaft technical feat;
• technische Formalitäten legal formalities;
• technischer Fortschritt technological progress (advance);
• technische Herausforderung engineering challenge;
• technische Hilfeleistungen technical aid;
• technischer Kaufmann sales engineer;
• technischer Leiter technical manager (director);
• technische Messe engineering fair;
• technische Neuerungen technical innovations;
• technische Normenvorschriften engineering standards;
• technische Nothilfe Organization for the Maintenance of Supplies (Br.), Office of Emergency Preparedness (US);
• technisches Personal engineering (technical) staff;
• technische Produktionsanlagen production facilities;
• technischer Rückstand technological gap;
• technischer Stab engineering force (staff);
• technischer Überwachungsverein (TÜV) technical control board;
• technische Unterlagen technical data;
• technische Unterstützung engineering support;
• technische Verbesserung technical improvement;
• technischer Verkäufer salesman engineer;
• technisches Versagen breakdown;
• technische Versicherung engineering insurance;
• technischer Zeichner tracer, draughtsman, draftsman;
• technische Zusammenarbeit technical collaboration;
• technischer Zustand technicality;
• technische Zuverlässigkeitsbescheinigung roadworthiness test certificate.
ausgefeilt, technisch
sophisticated.

Churchward, George Jackson

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 31 January 1857 Stoke Gabriel, Devon, England

d. 19 December 1933 Swindon, Wiltshire, England

[br]

English mechanical engineer who developed for the Great Western Railway a range of steam locomotives of the most advanced design of its time.

[br]

Churchward was articled to the Locomotive Superintendent of the South Devon Railway in 1873, and when the South Devon was absorbed by the Great Western Railway in 1876 he moved to the latter's Swindon works. There he rose by successive promotions to become Works Manager in 1896, and in 1897 Chief Assistant to William Dean, who was Locomotive Carriage and Wagon Superintendent, in which capacity Churchward was allowed extensive freedom of action. Churchward eventually succeeded Dean in 1902: his title changed to Chief Mechanical Engineer in 1916.

In locomotive design, Churchward adopted the flat-topped firebox invented by A.J.Belpaire of the Belgian State Railways and added a tapered barrel to improve circulation of water between the barrel and the firebox legs. He designed valves with a longer stroke and a greater lap than usual, to achieve full opening to exhaust. Passenger-train weights had been increasing rapidly, and Churchward produced his first 4–6– 0 express locomotive in 1902. However, he was still developing the details—he had a flair for selecting good engineering practices—and to aid his development work Churchward installed at Swindon in 1904 a stationary testing plant for locomotives. This was the first of its kind in Britain and was based on the work of Professor W.F.M.Goss, who had installed the first such plant at Purdue University, USA, in 1891. For comparison with his own locomotives Churchward obtained from France three 4–4–2 compound locomotives of the type developed by A. de Glehn and G. du Bousquet. He decided against compounding, but he did perpetuate many of the details of the French locomotives, notably the divided drive between the first and second pairs of driving wheels, when he introduced his four-cylinder 4–6–0 (the Star class) in 1907. He built a lone 4–6–2, the Great Bear, in 1908: the wheel arrangement enabled it to have a wide firebox, but the type was not perpetuated because Welsh coal suited narrow grates and 4–6–0 locomotives were adequate for the traffic. After Churchward retired in 1921 his successor, C.B.Collett, was to enlarge the Star class into the Castle class and then the King class, both 4–6–0s, which lasted almost as long as steam locomotives survived in service. In Church ward's time, however, the Great Western Railway was the first in Britain to adopt six-coupled locomotives on a large scale for passenger trains in place of four-coupled locomotives. The 4–6–0 classes, however, were but the most celebrated of a whole range of standard locomotives of advanced design for all types of traffic and shared between them many standardized components, particularly boilers, cylinders and valve gear.

[br]

Further Reading

H.C.B.Rogers, 1975, G.J.Churchward. A Locomotive Biography, London: George Allen \& Unwin (a full-length account of Churchward and his locomotives, and their influence on subsequent locomotive development).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 20 (a good brief account).

Sir William Stanier, 1955, "George Jackson Churchward", Transactions of the Newcomen

Society 30 (a unique insight into Churchward and his work, from the informed viewpoint of his former subordinate who had risen to become Chief Mechanical Engineer of the London, Midland \& Scottish Railway).

See also: Gresley, Sir Herbert Nigel; Stanier, Sir William Arthur

PJGR

Doane, Thomas

SUBJECT AREA: Civil engineering, Mechanical, pneumatic and hydraulic engineering, Railways and locomotives

[br]

b. 20 September 1821 Orleans, Massachusetts, USA

d. 22 October 1897 West Townsend, Massachusetts, USA

[br]

American mechanical engineer.

[br]

The son of a lawyer, he entered an academy in Cape Cod and, at the age of 19, the English Academy at Andover, Massachusetts, for five terms. He was then in the employ of Samuel L. Fenton of Charlestown, Massachusetts. He served a three-year apprenticeship, then went to the Windsor White River Division of the Vermont Central Railroad. He was Resident Engineer of the Cheshire Railroad at Walpote, New Hampshire, from 1847 to 1849, and then worked in independent practice as a civil engineer and surveyor until his death. He was involved with nearly all the railroads running out of Boston, especially the Boston \& Maine. In April 1863 he was appointed Chief Engineer of the Hoosac Tunnel, which was already being built. He introduced new engineering methods, relocated the line of the tunnel and achieved great accuracy in the meeting of the borings. He was largely responsible for the development in the USA of the advanced system of tunnelling with machinery and explosives, and pioneered the use of compressed air in the USA. In 1869 he was Chief Engineer of the Burlington \& Missouri River Railroad in Nebraska, laying down some 240 miles (386 km) of track in four years. During this period he became interested in the building of a Congregational College at Crete, Nebraska, for which he gave the land and which was named after him. In 1873 he returned to Charlestown and was again appointed Chief Engineer of the Hoosac Tunnel. At the final opening of the tunnel on 9 February 1875 he drove the first engine through. He remained in charge of construction for a further two years.

[br]

Principal Honours and Distinctions

President, School of Civil Engineers.

Further Reading

Duncan Malone (ed.), 1932–3, Dictionary of American Biography, New York: Charles Scribner.

IMcN

дистанционное техническое обслуживание

1. remote sevice
2. remote maintenance

 

дистанционное техническое обслуживание
Техническое обслуживание объекта, проводимое под управлением персонала без его непосредственного присутствия.
[ОСТ 45.152-99 ]

Параллельные тексты EN-RU из ABB Review. Перевод компании Интент

Service from afar

Дистанционный сервис

ABB’s Remote Service concept is revolutionizing the robotics industry

Разработанная АББ концепция дистанционного обслуживания Remote Service революционизирует робототехнику

ABB robots are found in industrial applications everywhere – lifting, packing, grinding and welding, to name a few. Robust and tireless, they work around the clock and are critical to a company’s productivity. Thus, keeping these robots in top shape is essential – any failure can lead to serious output consequences. But what happens when a robot malfunctions?

Роботы АББ используются во всех отраслях промышленности для перемещения грузов, упаковки, шлифовки, сварки – всего и не перечислить. Надежные и неутомимые работники, способные трудиться день и ночь, они представляют большую ценность для владельца. Поэтому очень важно поддерживать их в надлежащей состоянии, ведь любой отказ может иметь серьезные последствия. Но что делать, если робот все-таки сломался?

ABB’s new Remote Service concept holds the answer: This approach enables a malfunctioning robot to alarm for help itself. An ABB service engineer then receives whole diagnostic information via wireless technology, analyzes the data on a Web site and responds with support in just minutes. This unique service is paying off for customers and ABB alike, and in the process is revolutionizing service thinking.

Ответом на этот вопрос стала новая концепция Remote Service от АББ, согласно которой неисправный робот сам просит о помощи. C помощью беспроводной технологии специалист сервисной службы АББ получает всю необходимую диагностическую информацию, анализирует данные на web-сайте и через считанные минуты выдает рекомендации по устранению отказа. Эта уникальная возможность одинаково ценна как для заказчиков, так и для самой компании АББ. В перспективе она способна в корне изменить весь подход к организации технического обслуживания.

Every minute of production downtime can have financially disastrous consequences for a company. Traditional reactive service is no longer sufficient since on-site service engineer visits also demand great amounts of time and money. Thus, companies not only require faster help from the service organization when needed but they also want to avoid disturbances in production.

Каждая минута простоя производства может привести к губительным финансовым последствиям. Традиционная организация сервиса, предусматривающая ликвидацию возникающих неисправностей, становится все менее эффективной, поскольку вызов сервисного инженера на место эксплуатации робота сопряжен с большими затратами времени и денег. Предприятия требуют от сервисной организации не только более быстрого оказания помощи, но и предотвращения возможных сбоев производства.

In 2006, ABB developed a new approach to better meet customer’s expectations: Using the latest technologies to reach the robots at customer sites around the world, ABB could support them remotely in just minutes, thereby reducing the need for site visits. Thus the new Remote Service concept was quickly brought to fruition and was launched in mid-2007. Statistics show that by using the system the majority of production stoppages can be avoided.

В 2006 г. компания АББ разработала новый подход к удовлетворению ожиданий своих заказчиков. Использование современных технологий позволяет специалистам АББ получать информацию от роботов из любой точки мира и в считанные минуты оказывать помощь дистанционно, в результате чего сокращается количество выездов на место установки. Запущенная в середине 2007 г. концепция Remote Service быстро себя оправдала. Статистика показывает, что её применение позволило предотвратить большое число остановок производства.

Reactive maintenance The hardware that makes ABB Remote Service possible consists of a communication unit, which has a function similar to that of an airplane’s so-called black box 1. This “service box” is connected to the robot’s control system and can read and transmit diagnostic information. The unit not only reads critical diagnostic information that enables immediate support in the event of a failure, but also makes it possible to monitor and analyze the robot’s condition, thereby proactively detecting the need for maintenance.

Устранение возникающих неисправностей Аппаратное устройство, с помощью которого реализуется концепция Remote Service, представляет собой коммуникационный блок, работающий аналогично черному ящику самолета (рис. 1). Этот блок считывает диагностические данные из контроллера робота и передает их по каналу GSM. Считывается не только информация, необходимая для оказания немедленной помощи в случае отказа, но и сведения, позволяющие контролировать и анализировать состояние робота для прогнозирования неисправностей и планирования технического обслуживания.

If the robot breaks down, the service box immediately stores the status of the robot, its historical data (as log files), and diagnostic parameters such as temperature and power supply. Equipped with a built-in modem and using the GSM network, the box transmits the data to a central server for analysis and presentation on a dedicated Web site. Alerts are automatically sent to the nearest of ABB’s 1,200 robot service engineers who then accesses the detailed data and error log to analyze the problem.

При поломке робота сервисный блок немедленно сохраняет данные о его состоянии, сведения из рабочего журнала, а также значения диагностических параметров (температура и характеристики питания). Эти данные передаются встроенным GSM-модемом на центральный сервер для анализа и представления на соответствующем web-сайте. Аварийные сообщения автоматически пересылаются ближайшему к месту аварии одному из 1200 сервисных инженеров-робототехников АББ, который получает доступ к детальной информации и журналу аварий для анализа возникшей проблемы.

A remotely based ABB engineer can then quickly identify the exact fault, offering rapid customer support. For problems that cannot be solved remotely, the service engineer can arrange for quick delivery of spare parts and visit the site to repair the robot. Even if the engineer must make a site visit, service is faster, more efficient and performed to a higher standard than otherwise possible.

Специалист АББ может дистанционно идентифицировать отказ и оказать быструю помощь заказчику. Если неисправность не может быть устранена дистанционно, сервисный инженер организовывает доставку запасных частей и выезд ремонтной бригады. Даже если необходимо разрешение проблемы на месте, предшествующая дистанционная диагностика позволяет минимизировать объем работ и сократить время простоя.

Remote Service enables engineers to “talk” to robots remotely and to utilize tools that enable smart, fast and automatic analysis. The system is based on a machine-to-machine (M2M) concept, which works automatically, requiring human input only for analysis and personalized customer recommendations. ABB was recognized for this innovative solution at the M2M United Conference in Chicago in 2008 Factbox.

Remote Service позволяет инженерам «разговаривать» с роботами на расстоянии и предоставляет в их распоряжение интеллектуальные средства быстрого автоматизированного анализа. Система основана на основе технологии автоматической связи машины с машиной (M2M), где участие человека сводится к анализу данных и выдаче рекомендаций клиенту. В 2008 г. это инновационное решение от АББ получило приз на конференции M2M United Conference в Чикаго (см. вставку).

Proactive maintenance 

Remote Service also allows ABB engineers to monitor and detect potential problems in the robot system and opens up new possibilities for proactive maintenance.

Прогнозирование неисправностей

Remote Service позволяет инженерам АББ дистанционно контролировать состояние роботов и прогнозировать возможные неисправности, что открывает новые возможности по организации профилактического обслуживания.

The service box regularly takes condition measurements. By monitoring key parameters over time, Remote Service can identify potential failures and when necessary notify both the end customer and the appropriate ABB engineer. The management and storage of full system backups is a very powerful service to help recover from critical situations caused, for example, by operator errors.

Сервисный блок регулярно выполняет диагностические измерения. Непрерывно контролируя ключевые параметры, Remote Service может распознать потенциальные опасности и, при необходимости, оповещать владельца оборудования и соответствующего специалиста АББ. Резервирование данных для возможного отката является мощным средством, обеспечивающим восстановление системы в критических ситуациях, например, после ошибки оператора.

The first Remote Service installation took place in the automotive industry in the United States and quickly proved its value. The motherboard in a robot cabinet overheated and the rise in temperature triggered an alarm via Remote Service. Because of the alarm, engineers were able to replace a faulty fan, preventing a costly production shutdown.

Первая система Remote Service была установлена на автозаводе в США и очень скоро была оценена по достоинству. Она обнаружила перегрев материнской платы в шкафу управления роботом и передала сигнал о превышении допустимой температуры, благодаря чему инженеры смогли заменить неисправный вентилятор и предотвратить дорогостоящую остановку производства.

MyRobot: 24-hour remote access

Having regular access to a robot’s condition data is also essential to achieving lean production. At any time, from any location, customers can verify their robots’ status and access maintenance information and performance reports simply by logging in to ABB’s MyRobot Web site. The service enables customers to easily compare performances, identify bottlenecks or developing issues, and initiate the most

Сайт MyRobot: круглосуточный дистанционный доступ

Для того чтобы обеспечить бесперебойное производство, необходимо иметь регулярный доступ к информации о состоянии робота. Зайдя на соответствующую страницу сайта MyRobot компании АББ, заказчики получат все необходимые данные, включая сведения о техническом обслуживании и отчеты о производительности своего робота. Эта услуга позволяет легко сравнивать данные о производительности, обнаруживать возможные проблемы, а также оптимизировать планирование технического обслуживания и модернизации. С помощью MyRobot можно значительно увеличить выпуск продукции и уменьшить количество выбросов.

Award-winning solution

In June 2008, the innovative Remote Service solution won the Gold Value Chain award at the M2M United Conference in Chicago. The value chain award honors successful corporate adopters of M2M (machine–to-machine) technology and highlights the process of combining multiple technologies to deliver high-quality services to customers. ABB won in the categoryof Smart Services.

Приз за удачное решение

В июне 2008 г. инновационное решение Remote Service получило награду Gold Value Chain (Золотая цепь) на конференции M2M United Conference в Чикаго. «Золотая цепь» присуждается за успешное масштабное внедрение технологии M2M (машина – машина), а также за достижения в объединении различных технологий для предоставления высококачественных услуг заказчикам. АББ одержала победу в номинации «Интеллектуальный сервис».

Case study: Tetley Tetley GB Ltd is the world’s second-largest manufacturer and distributor of tea. The company’s manufacturing and distribution business is spread across 40 countries and sells over 60 branded tea bags. Tetley’s UK tea production facility in Eaglescliffe, County Durham is the sole producer of Tetley tea bags 2.

Пример применения: Tetley Компания TetleyGB Ltd является вторым по величине мировым производителем и поставщиком чая. Производственные и торговые филиалы компании имеются в 40 странах, а продукция распространяется под 60 торговыми марками. Чаеразвесочная фабрика в Иглсклифф, графство Дарем, Великобритания – единственный производитель чая Tetley в пакетиках (рис. 2).

ABB offers a flexible choice of service agreements for both new and existing robot installations, which can help extend the mean time between failures, shorten the time to repair and lower the cost of automated production.

Предлагаемые АББ контракты на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и общую стоимость автоматизированного производства.

Robots in the plant’s production line were tripping alarms and delaying the whole production cycle. The spurious alarms resulted in much unnecessary downtime that was spent resetting the robots in the hope that another breakdown could be avoided. Each time an alarm was tripped, several hours of production time was lost. “It was for this reason that we were keen to try out ABB’s Remote Service agreement,” said Colin Trevor, plant maintenance manager.

Установленные в технологической линии роботы выдавали аварийные сигналы, задерживающие выполнение производственного цикла. Ложные срабатывания вынуждали перезапускать роботов в надежде предотвратить возможные отказы, в результате чего после каждого аварийного сигнала производство останавливалось на несколько часов. «Именно поэтому мы решили попробовать заключить с АББ контракт на дистанционное техническое обслуживание», – сказал Колин Тревор, начальник технической службы фабрики.

To prevent future disruptions caused by unplanned downtime, Tetley signed an ABB Response Package service agreement, which included installing a service box and system infrastructure into the robot control systems. Using the Remote Service solution, ABB remotely monitors and collects data on the “wear and tear” and productivity of the robotic cells; this data is then shared with the customer and contributes to smooth-running production cycles.

Для предотвращения ущерба в результате незапланированных простоев Tetley заключила с АББ контракт на комплексное обслуживание Response Package, согласно которому системы управления роботами были дооборудованы сервисными блоками с необходимой инфраструктурой. С помощью Remote Service компания АББ дистанционно собирает данные о наработке, износе и производительности роботизированных модулей. Эти данные предоставляются заказчику для оптимизации загрузки производственного оборудования.

Higher production uptime

Since the implementation of Remote Service, Tetley has enjoyed greatly reduced robot downtime, with no further disruptions caused by unforeseen problems. “The Remote Service package has dramatically changed the plant,” said Trevor. “We no longer have breakdown issues throughout the shift, helping us to achieve much longer periods of robot uptime. As we have learned, world-class manufacturing facilities need world-class support packages. Remote monitoring of our robots helps us to maintain machine uptime, prevent costly downtime and ensures my employees can be put to more valuable use.”

Увеличение полезного времени

С момента внедрения Remote Service компания Tetley была приятно удивлена резким сокращением простоя роботов и отсутствием незапланированных остановок производства. «Пакет Remote Service резко изменил ситуацию на предприятии», – сказал Тревор. «Мы избавились от простоев роботов и смогли резко увеличить их эксплуатационную готовность. Мы поняли, что для производственного оборудования мирового класса необходим сервисный пакет мирового класса. Дистанционный контроль роботов помогает нам поддерживать их в рабочем состоянии, предотвращать дорогостоящие простои и задействовать наш персонал для выполнения более важных задач».

Service access

Remote Service is available worldwide, connecting more than 500 robots. Companies that have up to 30 robots are often good candidates for the Remote Service offering, as they usually have neither the engineers nor the requisite skills to deal with robotics faults themselves. Larger companies are also enthusiastic about Remote Service, as the proactive services will improve the lifetime of their equipment and increase overall production uptime.

Доступность сервиса

Сеть Remote Service охватывает более 700 роботов по всему миру. Потенциальными заказчиками Remote Service являются компании, имеющие до 30 роботов, но не имеющие инженеров и техников, способных самостоятельно устранять их неисправности. Интерес к Remote Service проявляют и более крупные компании, поскольку они заинтересованы в увеличении срока службы и эксплуатационной готовности производственного оборудования.

In today’s competitive environment, business profitability often relies on demanding production schedules that do not always leave time for exhaustive or repeated equipment health checks. ABB’s Remote Service agreements are designed to monitor its customers’ robots to identify when problems are likely to occur and ensure that help is dispatched before the problem can escalate. In over 60 percent of ABB’s service calls, its robots can be brought back online remotely, without further intervention.

В условиях современной конкуренции окупаемость бизнеса часто зависит от соблюдения жестких графиков производства, не оставляющих времени для полномасштабных или периодических проверок исправности оборудования. Контракт Remote Service предусматривает мониторинг состояния роботов заказчика для прогнозирования возможных неисправностей и принятие мер по их предотвращению. В более чем 60 % случаев для устранения неисправности достаточно дистанционной консультации в сервисной службе АББ, дальнейшего вмешательства не требуется.

ABB offers a flexible choice of service agreements for both new and existing robot installations, which helps extend the mean time between failures, shorten the time to repair and lower the total cost of ownership. With four new packages available – Support, Response, Maintenance and Warranty, each backed up by ABB’s Remote Service technology – businesses can minimize the impact of unplanned downtime and achieve improved production-line efficiency.

Компания АББ предлагает гибкий выбор контрактов на выполнение технического обслуживания как уже имеющихся, так и вновь устанавливаемых роботов, которые позволяют значительно увеличить среднюю наработку на отказ, сократить время ремонта и эксплуатационные расходы. Четыре новых пакета на основе технологии Remote Service – Support, Response, Maintenance и Warranty – позволяют минимизировать внеплановые простои и значительно повысить эффективность производства.

The benefits of Remote Sevice are clear: improved availability, fewer service visits, lower maintenance costs and maximized total cost of ownership. This unique service sets ABB apart from its competitors and is the beginning of a revolution in service thinking. It provides ABB with a great opportunity to improve customer access to its expertise and develop more advanced services worldwide.

Преимущества дистанционного технического обслуживания очевидны: повышенная надежность, уменьшение выездов ремонтных бригад, уменьшение затрат на обслуживание и общих эксплуатационных расходов. Эта уникальная услуга дает компании АББ преимущества над конкурентами и демонстрирует революционный подход к организации сервиса. Благодаря ей компания АББ расширяет доступ заказчиков к опыту своих специалистов и получает возможность более эффективного оказания технической помощи по всему миру.

Тематики

• тех. обсл. и ремонт средств электросвязи

Обобщающие термины

• виды технического обслуживания и ремонта

EN

• remote maintenance
• remote sevice

Русско-английский словарь нормативно-технической терминологии > дистанционное техническое обслуживание

Ferranti, Sebastian Ziani de

SUBJECT AREA: Electricity, Public utilities

[br]

b. 9 April 1864 Liverpool, England

d. 13 January 1930 Zurich, Switzerland

[br]

English manufacturing engineer and inventor, a pioneer and early advocate of high-voltage alternating-current electric-power systems.

[br]

Ferranti, who had taken an interest in electrical and mechanical devices from an early age, was educated at St Augustine's College in Ramsgate and for a short time attended evening classes at University College, London. Rather than pursue an academic career, Ferranti, who had intense practical interests, found employment in 1881 with the Siemens Company (see Werner von Siemens) in their experimental department. There he had the opportunity to superintend the installation of electric-lighting plants in various parts of the country. Becoming acquainted with Alfred Thomson, an engineer, Ferranti entered into a short-lived partnership with him to manufacture the Ferranti alternator. This generator, with a unique zig-zag armature, had an efficiency exceeding that of all its rivals. Finding that Sir William Thomson had invented a similar machine, Ferranti formed a company with him to combine the inventions and produce the Ferranti- Thomson machine. For this the Hammond Electric Light and Power Company obtained the sole selling rights.

In 1885 the Grosvenor Gallery Electricity Supply Corporation was having serious problems with its Gaulard and Gibbs series distribution system. Ferranti, when consulted, reviewed the design and recommended transformers connected across constant-potential mains. In the following year, at the age of 22, he was appointed Engineer to the company and introduced the pattern of electricity supply that was eventually adopted universally. Ambitious plans by Ferranti for London envisaged the location of a generating station of unprecedented size at Deptford, about eight miles (13 km) from the city, a departure from the previous practice of placing stations within the area to be supplied. For this venture the London Electricity Supply Corporation was formed. Ferranti's bold decision to bring the supply from Deptford at the hitherto unheard-of pressure of 10,000 volts required him to design suitable cables, transformers and generators. Ferranti planned generators with 10,000 hp (7,460 kW)engines, but these were abandoned at an advanced stage of construction. Financial difficulties were caused in part when a Board of Trade enquiry in 1889 reduced the area that the company was able to supply. In spite of this adverse situation the enterprise continued on a reduced scale. Leaving the London Electricity Supply Corporation in 1892, Ferranti again started his own business, manufacturing electrical plant. He conceived the use of wax-impregnated paper-insulated cables for high voltages, which formed a landmark in the history of cable development. This method of flexible-cable manufacture was used almost exclusively until synthetic materials became available. In 1892 Ferranti obtained a patent which set out the advantages to be gained by adopting sector-shaped conductors in multi-core cables. This was to be fundamental to the future design and development of such cables.

A total of 176 patents were taken out by S.Z. de Ferranti. His varied and numerous inventions included a successful mercury-motor energy meter and improvements to textile-yarn produc-tion. A transmission-line phenomenon where the open-circuit voltage at the receiving end of a long line is greater than the sending voltage was named the Ferranti Effect after him.

[br]

Principal Honours and Distinctions

FRS 1927. President, Institution of Electrical Engineers 1910 and 1911. Institution of Electrical Engineers Faraday Medal 1924.

Bibliography

18 July 1882, British patent no. 3,419 (Ferranti's first alternator).

13 December 1892, British patent no. 22,923 (shaped conductors of multi-core cables). 1929, "Electricity in the service of man", Journal of the Institution of Electrical Engineers 67: 125–30.

Further Reading

G.Z.de Ferranti and R. Ince, 1934, The Life and Letters of Sebastian Ziani de Ferranti, London.

A.Ridding, 1964, S.Z.de Ferranti. Pioneer of Electric Power, London: Science Museum and HMSO (a concise biography).

R.H.Parsons, 1939, Early Days of the Power Station Industry, Cambridge, pp. 21–41.

GW

Wöhler, August

SUBJECT AREA: Metallurgy

[br]

b. 22 June 1819 Soltau, Germany

d. 21 June 1914 Hannover, Germany

[br]

German railway engineer who first established the fatigue fracture of metals.

[br]

Wöhler, the son of a schoolteacher, was born at Soltau on the Luneburg Heath and received his early education at his father's school, where his mathematical abilities soon became apparent. He completed his studies at the Technical High School, Hannover.

In 1840 he obtained a position at the Borsig Engineering Works in Berlin and acquired there much valuable experience in railway technology. He trained as an engine driver in Belgium and in 1843 was appointed as an engineer to the first Hannoverian Railway, then being constructed between Hannover and Lehrte. In 1847 he became Chief Superintendent of rolling stock on the Lower Silesian-Brandenhurg Railway, where his technical abilities influenced the Prussian Minister of Commerce to appoint him to a commission set up to investigate the reasons for the unusually high incidence of axle failures then being encountered on the railways. This was in 1852, and by 1854, when the Brandenburg line had been nationalized, Wöhler had already embarked on the long, systematic programme of mechanical testing which eventually provided him with a clear insight into the process of what is now referred to as "fatigue failure". He concentrated initially on the behaviour of machined iron and steel specimens subjected to fluctuating direct, bending and torsional stresses that were imposed by testing machines of his own design.

Although Wöhler was not the first investigator in this area, he was the first to recognize the state of "fatigue" induced in metals by the repeated application of cycles of stress at levels well below those that would cause immediate failure. His method of plotting the fatigue stress amplitude "S" against the number of stress cycles necessary to cause failure "N" yielded the well-known S-N curve which described very precisely the susceptibility to fatigue failure of the material concerned. Engineers were thus provided with an invaluable testing technique that is still widely used in the 1990s.

Between 1851 and 1898 Wöhler published forty-two papers in German technical journals, although the importance of his work was not initially fully appreciated in other countries. A display of some of his fracture fatigue specimens at the Paris Exposition in 1867, however, stimulated a short review of his work in Engineering in London. Four years later, in 1871, Engineering published a series of nine articles which described Wöhler's findings in considerable detail and brought them to the attention of engineers. Wöhler became a member of the newly created management board of the Imperial German Railways in 1874, an appointment that he retained until 1889. He is also remembered for his derivation in 1855 of a formula for calculating the deflections under load of lattice girders, plate girders, and other continuous beams resting on more than two supports. This "Three Moments" theorem appeared two years before Clapeyron independently advanced the same expression. Wöhler's other major contribution to bridge design was to use rollers at one end to allow for thermal expansion and contraction.

[br]

Bibliography

1855, "Theorie rechteckiger eiserner Brückenbalken", Zeitschrift für Bauwesen 5:122–66. 1870, "Über die Festigkeitversuche mit Eisen und Stahl", Zeitschrift für Bauwesen 20:73– 106.

Wöhler's experiments on the fatigue of metals were reported in Engineering (1867) 2:160; (1871) 11:199–200, 222, 243–4, 261, 299–300, 326–7, 349–50, 397, 439–41.

Further Reading

R.Blaum, 1918, "August Wöhler", Beiträge zur Geschichte der Technik und Industrie 8:35–55.

——1925, "August Wöhler", Deutsches biographisches Jahrbuch, Vol. I, Stuttgart, pp. 103–7.

K.Pearson, 1890, "On Wöhler's experiments on alternating stress", Messeng. Math.

20:21–37.

J.Gilchrist, 1900, "On Wöhler's Laws", Engineer 90:203–4.

ASD

ведущий инженер-технолог

1) Engineering: leading industrial engineer

2) Automation: advanced manufacturing engineer

ведущий технолог

1) Automation: advanced manufacturing engineer

2) Gold mining: leading process engineer

Bosch, Robert August

SUBJECT AREA: Automotive engineering, Steam and internal combustion engines

[br]

b. 23 September 1861 Albeck, near Ulm, Germany

d. 9 March 1942 Stuttgart, Germany

[br]

German engineer, industrialist and pioneer of internal combustion engine electrical systems.

[br]

Robert was the eighth of twelve children of the landlord of a hotel in the village of Albeck. He wanted to be a botanist and zoologist, but at the age of 18 he was apprenticed as a precision mechanic. He travelled widely in the south of Germany, which is unusual for an apprenticeship. In 1884, he went to the USA, where he found employment with Thomas A. Edison and his colleague, the German electrical engineer Siegmund Bergmann. During this period he became interested and involved in the rights of workers.

In 1886 he set up his own workshop in Stuttgart, having spent a short time with Siemens in England. He built up a sound reputation for quality, but the firm outgrew its capital and in 1892 he had to sack nearly all his employees. Fortunately, among the few that he was able to retain were Arnold Zähringer, who later became Manager, and an apprentice, Gottlieb Harold. These two, under Bosch, were responsible for the development of the low-tension (1897) and the high-tension (1902) magneto. They also developed the Bosch sparking plug, again in 1902. The distributor for multi-cylinder engines followed in 1910. These developments, with a strong automotive bias, were stimulated by Bosch's association with Frederick Simms, an Englishman domiciled in Hamburg, who had become a director of Daimler in Canstatt and had secured the UK patent rights of the Daimler engine. Simms went on to invent, in about 1898, a means of varying ignition timing with low-tension magnetos.

It must be emphasized, as pointed out above, that the invention of neither type of magneto was due to Bosch. Nikolaus Otto introduced a crude low-tension magneto in 1884, but it was not patented in Germany, while the high-tension magneto was invented by Paul Winand, a nephew of Otto's partner Eugen Langen, in 1887, this patent being allowed to lapse in 1890.

Bosch's social views were advanced for his time. He introduced an eight-hour day in 1906 and advocated industrial arbitration and free trade, and in 1932 he wrote a book on the prevention of world economic crises, Die Verhütung künftiger Krisen in der Weltwirtschaft. Other industrialists called him the "Red Bosch" because of his short hours and high wages; he is reputed to have replied, "I do not pay good wages because I have a lot of money, I have a lot of money because I pay good wages." The firm exists to this day as the giant multi-national company Robert Bosch GmbH, with headquarters still in Stuttgart.

[br]

Further Reading

T.Heuss, 1994, Robert Bosch: His Life and Achievements (trans. S.Gillespie and J. Kapczynski), New York: Henry Holt \& Co.

JB

Campbell-Swinton, Alan Archibald

SUBJECT AREA: Broadcasting, Electronics and information technology

[br]

b. 18 October 1863 Kimmerghame, Berwickshire, Scotland

d. 19 February 1930 London, England

[br]

Scottish electrical engineer who correctly predicted the development of electronic television.

[br]

After a time at Cargilfield Trinity School, Campbell-Swinton went to Fettes College in Edinburgh from 1878 to 1881 and then spent a year abroad in France. From 1882 until 1887 he was employed at Sir W.G.Armstrong's works in Elswick, Newcastle, following which he set up his own electrical contracting business in London. This he gave up in 1904 to become a consultant. Subsequently he was an engineer with many industrial companies, including the W.T.Henley Telegraph Works Company, Parson Marine Steam Turbine Company and Crompton Parkinson Ltd, of which he became a director. During this time he was involved in electrical and scientific research, being particularly associated with the development of the Parson turbine.

In 1903 he tried to realize distant electric vision by using a Braun oscilloscope tube for the. image display, a second tube being modified to form a synchronously scanned camera, by replacing the fluorescent display screen with a photoconductive target. Although this first attempt at what was, in fact, a vidicon camera proved unsuccessful, he was clearly on the right lines and in 1908 he wrote a letter to Nature with a fairly accurate description of the principles of an all-electronic television system using magnetically deflected cathode ray tubes at the camera and receiver, with the camera target consisting of a mosaic of photoconductive elements that were scanned and discharged line by line by an electron beam. He expanded on his ideas in a lecture to the Roentgen Society, London, in 1911, but it was over twenty years before the required technology had advanced sufficiently for Shoenberg's team at EMI to produce a working system.

[br]

Principal Honours and Distinctions

FRS (Member of Council 1927 and 1929). Freeman of the City of London. Liveryman of Goldsmiths' Company. First President, Wireless Society 1920–1. Vice-President, Royal Society of Arts, and Chairman of Council 1917–19,1920–2. Chairman, British Scientific Research Association. Vice-President, British Photographic Research Association. Member of the Broadcasting Board 1924. Vice-President, Roentgen Society 1911–12. Vice-President, Institution of Electrical Engineers 1921–5. President, Radio Society of Great Britain 1913–21. Manager, Royal Institution 1912–15.

Bibliography

1908, Nature 78:151; 1912, Journal of the Roentgen Society 8:1 (both describe his original ideas for electronic television).

1924, "The possibilities of television", Wireless World 14:51 (gives a detailed description of his proposals, including the use of a threestage valve video amplifier).

1926, Nature 118:590 (describes his early experiments of 1903).

Further Reading

The Proceedings of the International Conference on the History of Television. From Early Days to the Present, November 1986, Institution of Electrical Engineers Publication No. 271 (a report of some of the early developments in television). A.A.Campbell-Swinton FRS 1863–1930, Royal Television Society Monograph, 1982, London (a biography).

KF

See also: Baird, John Logie

Poulsen, Valdemar

SUBJECT AREA: Broadcasting, Electronics and information technology, Recording, Telecommunications

[br]

b. 23 November 1869 Copenhagen, Denmark

d. 23 July 1942 Gentofte, Denmark

[br]

Danish engineer who developed practical magnetic recording and the arc generator for continuous radio waves.

[br]

From an early age he was absorbed by phenomena of physics to the exclusion of all other subjects, including mathematics. When choosing his subjects for the final three years in Borgedydskolen in Christianshavn (Copenhagen) before university, he opted for languages and history. At the University of Copenhagen he embarked on the study of medicine in 1889, but broke it off and was apprenticed to the machine firm of A/S Frichs Eftf. in Aarhus. He was employed between 1893 and 1899 as a mechanic and assistant in the laboratory of the Copenhagen Telephone Company KTAS. Eventually he advanced to be Head of the line fault department. This suited his desire for experiment and measurement perfectly. After the invention of the telegraphone in 1898, he left the laboratory and with responsible business people he created Aktieselskabet Telegrafonen, Patent Poulsen in order to develop it further, together with Peder Oluf Pedersen (1874– 1941). Pedersen brought with him the mathematical background which eventually led to his professorship in electronic engineering in 1922.

The telegraphone was the basis for multinational industrial endeavours after it was demonstrated at the 1900 World's Exhibition in Paris. It must be said that its strength was also its weakness, because the telegraphone was unique in bringing sound recording and reproduction to the telephone field, but the lack of electronic amplifiers delayed its use outside this and the dictation fields (where headphones could be used) until the 1920s. However, commercial interest was great enough to provoke a number of court cases concerning patent infringement, in which Poulsen frequently figured as a witness.

In 1903–4 Poulsen and Pedersen developed the arc generator for continuous radio waves which was used worldwide for radio transmitters in competition with Marconi's spark-generating system. The inspiration for this work came from the research by William Duddell on the musical arc. Whereas Duddell had proposed the use of the oscillations generated in his electric arc for telegraphy in his 1901 UK patent, Poulsen contributed a chamber of hydrogen and a transverse magnetic field which increased the efficiency remarkably. He filed patent applications on these constructions from 1902 and the first publication in a scientific forum took place at the International Electrical Congress in St Louis, Missouri, in 1904.

In order to use continuous waves efficiently (the high frequency constituted a carrier), Poulsen developed both a modulator for telegraphy and a detector for the carrier wave. The modulator was such that even the more primitive spark-communication receivers could be used. Later Poulsen and Pedersen developed frequency-shift keying.

The Amalgamated Radio-Telegraph Company Ltd was launched in London in 1906, combining the developments of Poulsen and those of De Forest Wireless Telegraph Syndicate. Poulsen contributed his English and American patents. When this company was liquidated in 1908, its assets were taken over by Det Kontinentale Syndikat for Poulsen Radio Telegrafi, A/S in Copenhagen (liquidated 1930–1). Some of the patents had been sold to C.Lorenz AG in Berlin, which was very active.

The arc transmitting system was in use worldwide from about 1910 to 1925, and the power increased from 12 kW to 1,000 kW. In 1921 an exceptional transmitter rated at 1,800 kW was erected on Java for communications with the Netherlands. More than one thousand installations had been in use worldwide. The competing systems were initially spark transmitters (Marconi) and later rotary converters ( Westinghouse). Similar power was available from valve transmitters only much later.

From c. 1912 Poulsen did not contribute actively to further development. He led a life as a well-respected engineer and scientist and served on several committees. He had his private laboratory and made experiments in the composition of matter and certain resonance phenomena; however, nothing was published. It has recently been suggested that Poulsen could not have been unaware of Oberlin Smith's work and publication in 1888, but his extreme honesty in technical matters indicates that his development was indeed independent. In the case of the arc generator, Poulsen was always extremely frank about the inspiration he gained from earlier developers' work.

[br]

Bibliography

1899, British patent no. 8,961 (the first British telegraphone patent). 1903, British patent no. 15,599 (the first British arc-genera tor patent).

His scientific publications are few, but fundamental accounts of his contribution are: 1900, "Das Telegraphon", Ann. d. Physik 3:754–60; 1904, "System for producing continuous oscillations", Trans. Int. El. Congr. St. Louis, Vol. II, pp. 963–71.

Further Reading

A.Larsen, 1950, Telegrafonen og den Traadløse, Ingeniørvidenskabelige Skrifter no. 2, Copenhagen (provides a very complete, although somewhat confusing, account of Poulsen's contributions; a list of his patents is given on pp. 285–93).

F.K.Engel, 1990, Documents on the Invention of Magnetic Re cor ding in 1878, New York: Audio Engineering Society, reprint no. 2,914 (G2) (it is here that doubt is expressed about whether Poulsen's ideas were developed independently).

GB-N

Industriebetriebslehre

Industriebetriebslehre f IND industrial engineering

* * *

f < Ind> industrial engineering

* * *

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.

курс повышенной подготовки офицеров инженерных войск

Military: Engineer Officer Advanced Course

System

System n 1. COMP, GEN system; 2. POL regime

* * *

n 1. <Comp, Geschäft> system; 2. < Pol> regime; 3. < Verwalt> system

* * *

System
system, plan, body, form, frame[work];
• dezentralisiertes System decentralized system;
• einsatzfähiges System deployable system;
• fortgeschrittenes (modernes) System advanced system;
• gut funktionierendes System efficient system;
• kapitalistisches System capitalistic (profits) system;
• mehrstufiges System multi-tier system;
• metrisches System metric system;
• ökologisches System ecosystem;
• parlamentarisches System parliamentary system of government;
• unbrauchbares System impracticable method;
• verschwenderisches System wasteful scheme;
• System der Analyse von Beamtengehältern pay-research system (Br.);
• System beweglicher Arbeitszeiten flexible time system;
• System der Ausgabe von Belegschaftsaktien employees’ shares plan;
• System zur Erforschung der Kundenmeinung image-rating system;
• System der mehrfachen Führungsgremien multiple management (US);
• System des gespaltenen Goldpreises two-tier gold price system;
• System der Grundbestandshaltung base stock system;
• System mit Käfighaltung (Landwirtschaft) battery system;
• System der sich bei Ablauf automatisch erneuernden Kredite revolving credit scheme;
• System der Lehrlingsausbildung apprenticeship system;
• System automatischer Lohnangleichung automatic system of pay settlements;
• System der freien Marktwirtschaft free-enterprise system;
• System vorgeschriebener Mindestreserven safety-fund system (US), fractional reserve banking system;
• System der gespaltenen Preise two-price system;
• System der differenzierten Preisfestsetzung für Auslieferungsstellen basing-point pricing system;
• System mit voll wirksamer Preisgleitklausel für Lebenshaltungskosten full cost-of-living escalator plan;
• System des Privateigentums private ownership;
• System zur beschleunigten Prüfung von Eingängen am Kassenschalter batch system;
• System der Qualitätsbestimmung quality-rating system;
• System betrieblicher Sozialzulagen employee-benefit plan;
• umfassendes System zusätzlicher Vergünstigungen overall compensation program(me);
• System flexibler (gespaltener) Wechselkurse flexible exchange-rate (multiple-rate) system, adjustable peg system (US);
• System des sozialen Wohnungsbaus National House-Building Council Scheme (Br.);
• System für Zahlungen in Euro in der gesamten EU EU-wide system for euro payments;
• System der Zulassung aller Versicherungsarten bei einer Gesellschaft multiple line system of insurance;
• System staatlicher Zusatzrenten state earnings-related pension (SERPS) (Br.);
• nach einem System arbeiten to have system in one’s work;
• in ein System bringen to systemize, to systematize;
• neues System einführen to supersede (introdue) a new system;
• System der sozialen Sicherheit harmonisieren to harmonize national social security sytems;
• System hochfahren (Computer) to restart a system;
• Systemabsturz (Computer) system crash;
• Systemanalytiker systems engineer (analyst);
• erforderliche Systemänderungen (Computer) necessary system changes.

Computerindustrie

Computerindustrie
computer industry;
• Computeringenieur computer engineer;
• Computerkenntnisse computer literacy (proficiency);
• Computerkompatibilität computer compatibility;
• Computerkriminalität computer crime[s];
• Computerlayout computerized layout;
• Computermischmasch computer double-talk (lingo);
• Computermissbrauchversicherung computer fraud insurance;
• zusammengeschaltetes Computernetz computer hook-up;
• drahtloses lokales Computernetzwerk wireless local area network (WLAN);
• weltumspannendes (weltweites) Computernetz[werk] (Internet) global network, world-wide web (www);
• Computerpirat cracker,hacker;
• Computerproblem bei der Umstellung aufs Jahr 2000 Y2K bug;
• Computerprogrammierung computer programming;
• Computerrevision computer auditing;
• Computersatz computerized composition (typesetting);
• Computerspeicher hard disk;
• Computersprache computer language;
• in ein Computersystem eindringen to break into a computer system;
• moderne Computertechnik advanced computer technology;
• neueste Computertechnologie latest developments in computer technology;
• Computer-Telefonie-Integration (telecom.) Computer Telephone Integration (CTI).

empresa

f.

1 company.

pequeña y mediana empresa small and medium-sized business

libre empresa free enterprise

empresa conjunta joint venture

empresa filial subsidiary

empresa matriz parent company

empresa privada private company

la empresa privada the private sector

empresa pública public sector firm

la empresa pública the public sector

empresa de trabajo temporal temping agency

empresa de transportes haulage firm

2 enterprise, undertaking.

se embarcó en una peligrosa empresa he embarked on a risky enterprise o undertaking

* * *

empresa

► nombre femenino

1 (compañía) firm, company

2 (dirección) management

3 (acción) undertaking, venture

\

FRASEOLOGÍA

empresa filial subsidiary company

empresa matriz parent company

empresa multinacional multinational company

empresa naviera shipping company

libre empresa free enterprise

* * *

noun f.

1) company, corporation, firm, business

2) undertaking, venture

* * *

SF

1) (=tarea) enterprise

empresa libre — free enterprise

empresa privada — private enterprise

2) (Com, Econ) (=compañía) firm, company

pequeñas y medianas empresas — small and medium-sized companies

empresa colectiva — joint venture

empresa de seguridad — security company

empresa de servicios públicos — public utility company

empresa de trabajo temporal — temp recruitment agency

empresa fantasma — dummy company

empresa filial — affiliated company

empresa fletadora — shipping company

empresa funeraria — undertaker's, mortician's (EEUU)

empresa matriz — parent company

empresa particular — private company

empresa pública — public sector company

3) (=dirección) management

la empresa lamenta que... — the management regrets that...

* * *

femenino

1)

a) ( compañía) company, firm (BrE)

empresa filial — subsidiary company

b) ( dirección) management

la empresa no se hace responsable — the management cannot accept liability

- empresa de servicios públicos

- empresa privada/pública

2) (tarea, labor) venture, undertaking

* * *

femenino

1)

a) ( compañía) company, firm (BrE)

empresa filial — subsidiary company

b) ( dirección) management

la empresa no se hace responsable — the management cannot accept liability

- empresa de servicios públicos

- empresa privada/pública

2) (tarea, labor) venture, undertaking

* * *

empresa¹

¹ = business [businesses, -pl.], commercial firm, company, corporation, firm, business enterprise, outfit, business interest, business firm, industrial firm, commercial enterprise, operating company.

Nota: Perteneciente a un grupo.

Ex: To a small or mid-sized business, information is critical for effective planning, growth and development.

Ex: Difficulties over access to these can arise when research project has been financed by a scientific organization or commercial firm who have an interest in maintaining security.

Ex: Among the companies offering 'Mice' are Microsoft, Vision and Apple, but more are anticipated.

Ex: The main form of knowledge transfer and the basis for decision making within corporations has not been a paper, a document or a detailed report, but a set of overhead slides and the discussions around them.

Ex: The European Development Fund finances projects in overseas countries for which European-based firms can supply equipment and know-how.

Ex: The 'Books at work' project in Kalmar in southern Sweden is the result of collaboration between trade unions, business enterprises and the public library.

Ex: The author compares the advantages and disadvantages of buying from the larger established companies and smaller outfits.

Ex: As an example, the University of Hawaii libraries have installed an online catalogue on which they will hang a special assortment of databases that are needed by Hawaii and Pacific business interests.

Ex: Collection and preservation of records is an expensive pursuit and the task of persuading cost conscious business firms that they ought to preserve their records is an unenviable one.

Ex: In libraries serving industrial firms, for example, the cost of not finding information may be high; this is why 'hard headed businessmen' add to their overheads by paying for extensive library services.

Ex: Some commercial enterprises subsidise satellite communications for academic institutions.

Ex: In the future, these files will be made readily accessible to other Glaxo operating companies through the use of computers.

* a cuenta de la empresa = at company expense.

* administración de empresas = business administration.

* admnistrador de empresa = firm administrator.

* archivo de empresa = business archives.

* biblioteca de empresa = commercial library, industrial library, corporate library, company library, business library.

* bibliotecario de empresa = industrial librarian.

* comida de empresa = company dinner.

* como las empresas = business-like.

* conglomerado de empresas = conglomerate.

* contratación de personal cualificado de otras empresas = lateral hiring.

* curso mixto de clases y práctica en la empresa = sandwich course.

* dejar la empresa = jump + ship.

* de la propia empresa = company-owned.

* de toda la empresa = systemwide.

* director de empresa = company director.

* directorio de empresas en base de datos = corporate directory database, company directory database.

* documentación de empresas = business record.

* empresa afiliada = sister company.

* empresa comercial = commercial agency, commercial vendor, commercial business, business firm.

* empresa con solera = established player.

* empresa consolidada = established player.

* empresa constructora = property developer.

* empresa consumada = established player.

* empresa de búsqueda personalizada de ejecutivos = headhunter.

* empresa de cobro de deudas = debt collection agency.

* empresa de contabilidad = accounting firm.

* empresa dedicada a la venta por correo = mail order company.

* empresa dedicada al desarrollo de productos = product developer.

* empresa dedicada a los sondeos de opinión = polling firm, polling agency.

* empresa dedicada al proceso del cereal = corn processor.

* empresa de grandes derroches = high roller.

* empresa de investigación = research firm.

* empresa de la limpieza = cleaning firm.

* empresa de liempza = cleaning business.

* empresa de limpieza = janitorial business.

* empresa de medios de comunicación = media company.

* empresa de mudanzas = mover.

* empresa de nuestro grupo = sister company, sister organisation.

* empresa de nueva creación = this sort of thing, startup [start-up].

* empresa de ordenadores = computer company.

* empresa de reparto de paquetes = package delivery company.

* empresa de seguridad = security firm.

* empresa de servicios = service organisation, service agency, service company.

* empresa de servicios de información = information broker, broker, information broking.

* empresa de servicio social = social utility.

* empresa de servicios públicos = public utility, utility company.

* empresa de solera = established player.

* empresa de telecomunicaciones = computer bureau.

* empresa de trabajo = industrial affiliation.

* empresa de un grupo = operating company.

* empresa de viajes = travel company.

* empresa en la que sólo pueden trabajar empleados que pertenezcan a un sindic = close shop.

* empresa farmacéutica = drug company.

* empresa filial = subsidiary company.

* empresa hipotecaria = mortgage company.

* empresa industrial = industrial firm.

* empresa organizadora de congresos = conference organiser.

* empresa privada = private vendor, private company, private business, private firm.

* empresa pública = civilian employer, public firm.

* empresas americanas, las = corporate America.

* empresa sindicada = union shop.

* empresa televisiva = television company.

* empresa transportadora = shipper, shipping agent.

* en toda la empresa = company-wide, systemwide.

* específico de las empresas = company-specific.

* fusión de empresas = consolidation.

* gasto de empresa = business expense.

* gestión de empresas = business management.

* grupo de empresas = business group.

* guardería de la empresa = workplace crêche.

* información sobre empresas = business intelligence.

* intranet de empresa = corporate intranet.

* libro de empresa = organisation manual.

* mercado de la empresa = corporate market.

* mundo de la empresa = business world.

* mundo de la empresa, el = corporate world, the.

* mundo de las empresas = business environment.

* página web de empresa = business site, corporate site.

* para toda la empresa = company-wide, enterprise-wide.

* partícipe en la empresa = corporate insider.

* patrocinado por la propia empresa = company-sponsored.

* pequeña empresa = small business.

* persona de la propia empresa = insider.

* programa de prácticas en la empresa = internship program(me), internship.

* programa mixto de clases y práctica en la empresa = sandwich programme.

* propiedad de la empresa = company-owned.

* PYME (Pequeña y Mediana Empresa) = SME (Small and Medium Sized Enterprise).

* que afecta a toda la empresa = enterprise-wide.

* sitio web de empresa = business site, corporate site.

* trabajador cualificado contratado de otra empresa = lateral hire.

* ya parte de la empresa = on board.

empresa²

² = enterprise, scheme, venture, quest, operation, undertaking.

Ex: Only those who have attempted to edit the proceedings of a conference can appreciate the magnitude and scope of such an enterprise.

Ex: There are forty-six centres in twenty-five countries participating in the scheme.

Ex: However rudimentary or advanced the system, and no matter what the age of the children involved, certain matters should be considered before setting out on the venture.

Ex: It is a quest without a satisfactory conclusion - a holy grail of librarianship.

Ex: When he was younger he really turned the library around, from a backwater, two-bit operation to the respected institution it is today.

Ex: Since the file from 1966-1975 contains some 2,500,000 references, a search of the complete data base is a fairly large-scale undertaking.

* empresa descabellada = fool's errand.

* empresa próspera = success story.

* * *

empresa

feminine

A

1 (compañía) company, firm ( BrE)

empresa filial subsidiary company

mediano, pequeño¹ (↑ pequeño (1))

2 (dirección) management

la empresa no se hace responsable de … the management cannot accept liability for …

libre¹ (↑ libre (1))

Compuestos:

● empresa debutante

start-up

● empresa de servicios públicos

public utility company, public utility

● empresa mecenas

sponsors (pl) ( of an artistic event)

● empresa privada

private sector company

● empresa pública

public sector company

● empresa tiburón

raider

● empresa unipersonal

masculine and feminine (Ur) self-employed person, sole trader ( BrE)

B (tarea, labor) venture, undertaking

nos hemos embarcado en una arriesgada empresa we've undertaken a risky venture

pereció en la empresa ( liter); she perished in the attempt ( liter)

* * *

 

empresa sustantivo femenino
1 ( compañía) company, firm (BrE);

◊ empresa pública public sector company

2 (tarea, labor) venture, undertaking
empresa sustantivo femenino
1 Com Ind company, firm
empresa pública, state-owned company
2 (proyecto, tarea) undertaking, task: es una empresa muy arriesgada, it's a very risky venture
' empresa' also found in these entries:
Spanish:
administración
- ámbito
- amenaza
- asegurar
- bacalao
- casa
- CEPYME
- compañía
- constructor
- constructora
- contabilidad
- contrata
- dar
- decorar
- deficitaria
- deficitario
- definitivamente
- departamento
- depurar
- dirección
- dirigir
- diversificarse
- económica
- económico
- ejecutiva
- ensalzar
- entablar
- escala
- escáner
- espaldarazo
- estatal
- estructuración
- forjar
- gestión
- hipotecar
- hostelería
- imagen
- imposición
- inspección
- juez
- lanzamiento
- ligarse
- llevar
- mecánica
- nacional
- negocio
- negrera
- negrero
- patrón
- patrona
English:
administration
- amount to
- association
- audit
- backbone
- bankrupt
- base
- be
- being
- boss
- branch out
- builder
- business
- by-law
- carrier
- climb down
- cock-up
- collapse
- come in
- company
- creativity
- credit bureau
- dark horse
- deal with
- department
- developer
- disorganized
- division
- do
- down-market
- effective
- engineer
- enter
- enterprise
- equal
- established
- exploit
- firm
- fixture
- float
- flourish
- go down
- go under
- head
- house
- in-house
- insider
- intimidate
- launch
- launching

* * *

empresa nf

1. [sociedad] company;

pequeña y mediana empresa small and medium-sized business;

prohibido fijar carteles: responsable la empresa anunciadora [en letrero] post o stick no bills: advertisers will be held liable

Comp

empresa común joint venture;

empresa conjunta joint venture;

empresa filial subsidiary;

empresa funeraria undertaker's;

empresa júnior junior enterprise, = firm set up and run by business studies students;

empresa libre, libre empresa free enterprise;

empresa matriz parent company;

empresa mixta mixed company;

empresa privada private company;

empresa pública public sector firm;

empresa punto com dot.com (company);

empresa de seguridad security firm;

empresa de servicio público public utility, US public service corporation;

empresa de servicios service company;

empresa de trabajo temporal Br temping o US temp agency;

empresa de transportes Br haulage o US trucking firm;

Urug empresa unipersonal sole trader, one person business

2. [dirección] management;

las negociaciones con la empresa the negotiations with management

3. [acción] enterprise, undertaking;

se embarcó en una peligrosa empresa he embarked on a risky enterprise o undertaking

* * *

empresa

f

1 company;

gran empresa large company;

pequeña empresa small business;

mediana empresa medium-sized business

2 fig

venture, undertaking

* * *

empresa nf

1) compañía, firma: company, corporation, firm

2) : undertaking, venture

* * *

empresa n

1. (entidad) company [pl. companies]

una empresa naviera a shipping company

2. (negocio) business [pl. businesses]

una empresa familiar a family business