Башкирская АЭС. Башкирская аэс

Башкирская АЭС Википедия

Данные в этой статье приведены по состоянию на 2006 год.

Вы можете помочь, обновив информацию в статье.

Страна Местоположение Год начала строительства Вывод из эксплуатации Эксплуатирующая организация Основные характеристики Электрическая мощность, МВт Характеристики оборудования Количество энергоблоков Строится энергоблоков Тип реакторов Эксплуатируемых реакторов На карте

Башкирская АЭС
Россия Россия
Башкортостан Башкортостан
1980 год
строительство остановлено в 1990
филиал Концерна «Росэнергоатом» «Дирекция строящейся Башкирской АЭС»
4000 МВт (планировавшаяся)
0
3, строительство остановлено в 1990 году
ВВЭР-1000
0
Башкирская АЭС

Башки́рская а́томная электроста́нция — недостроенная атомная электростанция, расположенная вблизи города Агидели в Башкортостане у слияния рек Белой и Камы.

В 1990 году под давлением общественности после аварии на Чернобыльской АЭС строительство Башкирской АЭС было остановлено. Она повторила участь однотипных ей недостроенных Татарской и Крымской АЭС.

История строительства[ | код]

Требования к месторасположению строительной площадки мощной электростанции предъявлялись предельно жёсткие. Определяющим фактором было наличие надёжного и экономичного источника технического водоснабжения. В первую очередь для строительства АЭС рекомендовались пункты, где можно было создать оборотную систему водоснабжения на существующих водоёмах и реках. Большое внимание уделялось инженерно-геологическим условиям местности. Учитывались также транспортная доступность, населённость местности, ветровой режим, условия создания санитарно-защитной зоны и многое другое. В результате, по совокупной возможности выполнения всех предъявляемых требований, в Краснокамском районе Башкирской АССР была выбрана площадка для строительства атомной электростанции и её города-спутника.

Проект Башкирской АЭС разработан в соответствии с Постановлением ЦК КПСС и Совета Министров СССР от 26 июня 1980 года № 540—176 на мощность 4000 МВт с расширением до 6000 МВт.

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Башкирская АЭС - WikiVisually

1. Россия – Russia, also officially the Russian Federation, is a country in Eurasia. The European western part of the country is more populated and urbanised than the eastern. Russias capital Moscow is one of the largest cities in the world, other urban centers include Saint Petersburg, Novosibirsk, Yekaterinburg, Nizhny Novgorod. Extending across the entirety of Northern Asia and much of Eastern Europe, Russia spans eleven time zones and incorporates a range of environments. It shares maritime borders with Japan by the Sea of Okhotsk, the East Slavs emerged as a recognizable group in Europe between the 3rd and 8th centuries AD. Founded and ruled by a Varangian warrior elite and their descendants, in 988 it adopted Orthodox Christianity from the Byzantine Empire, beginning the synthesis of Byzantine and Slavic cultures that defined Russian culture for the next millennium. Rus ultimately disintegrated into a number of states, most of the Rus lands were overrun by the Mongol invasion. The Soviet Union played a role in the Allied victory in World War II. The Soviet era saw some of the most significant technological achievements of the 20th century, including the worlds first human-made satellite and the launching of the first humans in space. By the end of 1990, the Soviet Union had the second largest economy, largest standing military in the world. It is governed as a federal semi-presidential republic, the Russian economy ranks as the twelfth largest by nominal GDP and sixth largest by purchasing power parity in 2015. Russias extensive mineral and energy resources are the largest such reserves in the world, making it one of the producers of oil. The country is one of the five recognized nuclear weapons states and possesses the largest stockpile of weapons of mass destruction, Russia is a great power as well as a regional power and has been characterised as a potential superpower. The name Russia is derived from Rus, a state populated mostly by the East Slavs. However, this name became more prominent in the later history, and the country typically was called by its inhabitants Русская Земля. In order to distinguish this state from other states derived from it, it is denoted as Kievan Rus by modern historiography, an old Latin version of the name Rus was Ruthenia, mostly applied to the western and southern regions of Rus that were adjacent to Catholic Europe. The current name of the country, Россия, comes from the Byzantine Greek designation of the Kievan Rus, the standard way to refer to citizens of Russia is Russians in English and rossiyane in Russian. There are two Russian words which are translated into English as Russians

2. Башкортостан – The Republic of Bashkortostan, also known as Bashkiria is a federal subject of Russia. It is located between the Volga River and the Ural Mountains and its capital is the city of Ufa. With the population of 4,072,292 as of the 2010 Census, Bashkurdistan, the first ethnic autonomy in Russia, was established on November 281917. On March 20,1919, it was transformed into the Bashkir ASSR, in accordance with the Constitution of Bashkortostan and Russian Federation Constitution, Bashkortostan is a state, but has no sovereignty. On 11 October 1990 Bashkortostan adopted the Declaration of State Sovereignty,11 October is Republic Day in Bashkortostan. The name Bashkortostan derives from the name of the Bashkir ethnic group, while the root of the name is Turkic, the suffix -stan is Persian, common to many Eurasian country-names. They speak the Bashkir language, which belongs to the Kypchak branch of the Turkic languages, the first settlements in the territory of modern Bashkortostan date from the early Paleolithic period, but the Bronze Age spurred an upsurge in the population of this territory. When people of the Abashevo culture started settling here they possessed high skills in manufacturing bronze tools, weapons and they were the first to establish permanent settlements in the Southern Urals. Bashkortostan takes its name from its native people — the Bashkirs, the Russian name of the country — Bashkiriya — formed at the end of the 16th century. Originally it appeared in the forms Bashkir land, Bashkir’, Bashkirda, the ethnonym Bashkirs first became known in the 7th century. His contemporary Ibn-Ruste described the Bashkirs as an independent people, occupying territories on both sides of the Ural mountain ridge between Volga, Kama, Tobol and upstream of Yaik river. After the early-feudal Mongolian state had broken down in the 14th century, the tribes that lived there were headed by bi. After Kazan fell to Ivan the Terrible in 1554–1555, representatives of western and northwestern Bashkir tribes approached the Tsar with a request to voluntarily join Muscovy, starting from the second half of the 16th century, Bashkirias territory began taking shape as a part of the Russian state. Ufa Governorate, with a center in Ufa, was formed in 1865— another step towards territorial identification, after the Russian Revolution of 1917 are All-Bashkir Qoroltays on which a decision on the need to create a national federal republic within Russia. The congress was formed the government of Bashkurdistan, the Pre-parliament - Kese-Qoroltay and other bodies of power and administration, in March 1919, based on the agreements of the Russian Government with the Bashkir Government was formed Bashkir Autonomous Soviet Socialist Republic. During the Soviet period, Bashkiria was granted broad autonomous rights— the first among other Russian regions, the administrative structure of the Bashkir ASSR was based on principles similar to those of other autonomous republics of Russia. On October 11,1990 the Supreme Soviet of the Republic adopted the Declaration on state sovereignty of the Bashkir ASSR, on February 25,1992, the Bashkir ASSR was renamed the Republic of Bashkortostan. Bashkortostan contains part of the southern Urals and the adjacent plains, many rivers are part of the deepwater transportation system of European Russia, they provide access to ports of the Baltic and Black seas

3. Росэнергоатом – Rosenergoatom is the Russian nuclear power station operations subsidiary of Atomenergoprom. The company was established on 7 September 1992 in Presidential decree 1055, according to the decree on 8 September 2001 all Russian civil nuclear power plants as well as all supporting companies were incorporated into Rosenergoatom. In August 2008 Rosenergoatom was reorganized into an open joint-stock company, all shares of the company were transferred to Atomenergoprom by the end of 2008. In 2009 the old name was reinstated, Rosenergoatom currently operates 10 nuclear power plants with 33 reactors. There is a plan to increase the number of reactors in operation to 59 by 2030, Rosenergoatom is planning the production of floating mobile nuclear power plants to power towns on the north coast of Russia. Energy policy of Russia Nuclear power in Russia Rosatom Corporate website of Rosenergoatom

4. Атомная электростанция – A nuclear power plant or nuclear power station is a thermal power station in which the heat source is a nuclear reactor. As is typical in all conventional thermal power stations the heat is used to steam which drives a steam turbine connected to an electric generator which produces electricity. As of 23 April 2014, the IAEA report there are 449 nuclear power reactors in operation operating in 31 countries, Nuclear power stations are usually considered to be base load stations, since fuel is a small part of the cost of production. Their operations and maintenance and fuel costs are, along with stations, at the low end of the spectrum. The cost of spent fuel management, however, is somewhat uncertain, for more history, see nuclear reactor, nuclear power and nuclear fission. The second, larger experiment occurred on December 20,1951 at the EBR-I experimental station near Arco, on June 27,1954, the worlds first nuclear power station to generate electricity for a power grid started operations at the Soviet city of Obninsk. The worlds first full power station, Calder Hall in England. The worlds first full power station solely devoted to electricity production, Shippingport power plant in the United States. The conversion to electrical energy takes place indirectly, as in conventional power stations. The fission in a nuclear reactor heats the reactor coolant, the coolant may be water or gas or even liquid metal depending on the type of reactor. The reactor coolant then goes to a generator and heats water to produce steam. The pressurized steam is then fed to a multi-stage steam turbine. After the steam turbine has expanded and partially condensed the steam, the condenser is a heat exchanger which is connected to a secondary side such as a river or a cooling tower. The water is pumped back into the steam generator and the cycle begins again. The water-steam cycle corresponds to the Rankine cycle, the nuclear reactor is the heart of the station. In its central part, the cores heat is generated by controlled nuclear fission. With this heat, a coolant is heated as it is pumped through the reactor, heat from nuclear fission is used to raise steam, which runs through turbines, which in turn powers the electrical generators. Nuclear reactors usually rely on uranium to fuel the chain reaction, Uranium is a very heavy metal that is abundant on Earth and is found in sea water as well as most rocks

5. Белая (приток Камы) – Belaya River is a river in Bashkortostan, Russian Federation. Its source lies in the south-western Ural Mountains, settlements along the Belaya include Beloretsk, Sterlitamak, Ufa, and Birsk. The Belaya flows into the Kama River near Neftekamsk

6. Чернобыльская АЭС – Reactor No.4 was the site of the Chernobyl disaster in 1986 and the power plant is now within a large restricted area known as the Chernobyl Exclusion Zone. Both the zone and the power plant are administered by the State Agency in Administration of Exclusion Zone. The nuclear power plant site clean-up is scheduled for completion in 2065, on January 3,2010, a Ukrainian law stipulating a programme toward this objective came into effect. The Chernobyl station is 18 km northwest of the city of Chernobyl,16 km from the border of Ukraine and Belarus and about 100 km north of Kiev. Construction of the plant and the city of Pripyat, Ukraine to house workers and their families began in 1970. It was the nuclear power station in the Soviet Union of the RBMK-type. The completion of the first reactor in 1977 was followed by reactor No, two more blocks, numbered 5 and 6, of more or less the same reactor design, were planned at a site roughly a kilometers distance from the contiguous buildings of the four older blocks. Reactor No.5 was around 70 % complete at the time of block 4s accident and was scheduled to come online approximately six months later, on 7 November 1986. In the aftermath of the accident, the construction on No.5 and No.6 was suspended, Reactor Nos.3 and 4 were second generation units, whereas Nos.1 and 2 were first-generation units. Second-generation RBMK designs were fitted with a more secure containment structure visible in photos of the facility, the power plant is connected to the 330 kV and 750 kV electrical grid. The block has two electrical generators connected to the 750 kV grid by a single generator transformer, the generators are connected to their common transformer by two switches in series. The 330 kV line is not used, and serves as an external power supply. In case of external power loss, the essential systems can be powered by diesel generators. The 7A, 7B, and 8B boards are connected to the three essential power lines, each also having its own diesel generator. The generators are started automatically within 15 seconds at loss of off-site power, the electrical energy is generated by a pair of 500 MW hydrogen-cooled turbo generators. These are located in the 600 m -long machine hall, adjacent to the reactor building, the turbines—the venerable five-cylinder K-500-65/3000—are supplied by the Kharkiv turbine plant, the electrical generators are the TBB-500. The turbine and the rotors are mounted on the same shaft. The turbo generator is 39 m long and its weight is 1,200 t

7. Крымская АЭС – The Crimean Nuclear Power Station is an abandoned and unfinished nuclear power plant near the cape of Kazantyp on banks of Aqtas Lake in Crimea. Construction work on the plant started in 1976, and the town of Shcholkine was constructed in 1978 to house workers working on the project. The station was inspected following the Chernobyl disaster of 1986, and was found to be located on a geologically volatile site, construction of the facility was summarily abandoned in 1989. Between 1993 and 1999 the plant was home to the music festival Kazantip. The festival was referred to as the Reaktor for this reason, from 1998 to 2004 the station was under jurisdiction of the Ministry of Fuel. In 2004 it was passed to the government of Crimea, in 2005 the Crimean representation of the State Property Fund sold the station to a person, whose identity is undisclosed. Nuclear power in Ukraine artificialowl. net Crimea Energy Community

8. Водоснабжение – Water supply is the provision of water by public utilities commercial organisations, community endeavors or by individuals, usually via a system of pumps and pipes. However, about 14% did not have access to a water source and had to use unprotected wells or springs, canals. A clean water supply - in particular water that is not polluted with fecal matter from lack of sanitation - is the single most important determinant of public health. Destruction of water supply and/or sanitation infrastructure after major catastrophes poses the threat of severe epidemics of waterborne diseases. Water supply systems get water from a variety of locations after appropriate treatment, including groundwater, surface water, the water treatment steps include, in most cases, purification, disinfection through chlorination and sometimes fluoridation. Treated water then flows by gravity or is pumped to reservoirs. In the U. S, the single family home uses about 69.3 gallons of water per day. This includes toilet use, washing machine use, showers, baths, tap use, many of the 3.5 billion people having access to piped water receive a poor or very poor quality of service, especially in developing countries where about 80% of the world population lives. Water supply service quality has many dimensions, continuity, water quality, pressure, and it is estimated that about half of the population of developing countries receives water on an intermittent basis. Drinking water quality has a micro-biological and a physico-chemical dimension, there are thousands of parameters of water quality. For more details, please see the entries on water quality, water treatment. Water pressures vary in different locations of a distribution system, Water mains below the street may operate at higher pressures, with a pressure reducer located at each point where the water enters a building or a house. In poorly managed systems, water pressure can be so low as to only in a trickle of water or so high that it leads to damage to plumbing fixtures. Typical UK pressures are 4–5 bar for an urban supply, however, some people can get over eight bars or below one bar. A single iron main pipe may cross a valley, it will have the same nominal pressure. So people at the bottom of a 100-foot hill will get about 3 bars more than those at the top, the effective pressure also varies because of the pressure loss due to supply resistance even for the same static pressure. An urban consumer may have 5 metres of 15 mm pipe running from the main, so the kitchen tap flow will be fairly unrestricted. A rural consumer may have a kilometre of rusted and limed 22 mm iron pipe, for this reason, the UK domestic water system has traditionally employed a cistern feed system, where the incoming supply is connected to the kitchen sink and also a header/storage tank in the attic

9. Агидель – Agidel is a town in the Republic of Bashkortostan, Russia, located near the border with the Republic of Tatarstan. The name of the town is derived from the Bashkir name of the Belaya River, Aghidhel and it was founded in 1980 as a settlement supporting the construction of the Bashkir nuclear power plant. It was granted town status in 1991, within the framework of administrative divisions, it is incorporated as the town of republic significance of Agidel—an administrative unit with the status equal to that of the districts. As a municipal division, the town of significance of Agidel is incorporated as Agidel Urban Okrug. As of 2010, the head of the administration is Oleg Krysin. Since the Chernobyl disaster, the people across entire Russia have been opposed to construction of a nuclear plant in northwestern Bashkortostan. In September 2010, the government of Bashkortostan announced plans about establishing an industrial park in Agidel that would promote local manufacturing of construction materials. Постановление №391 от29 декабря2006 г, «Об утверждении реестра административно-территориальных единиц и населённых пунктов Республики Башкортостан», в ред. Постановления №61 от26 февраля2013 г, «О внесении изменений в реестр административно-территориальных единиц и населённых пунктов Республики Башкортостан». Опубликован, Ведомости Государственного Собрания – Курултая, Президента и Правительства Республики Башкортостан, №5, Закон №162-з от17 декабря2004 г. «О границах, статусе и административных центрах муниципальных образований в Республике Башкортостан», Закона №572-з от17 июля2012 г. «О внесении изменения в статью2 Закона Республики Башкортостан О границах, Вступил в силу в соответствии со статьёй33. Опубликован, Республика Башкортостан, №52,22 марта2005 г

10. Балаковская АЭС – Balakovo nuclear power station is located in the city of Balakovo, Saratov Oblast, Russia, about 900 kilometers south-east of Moscow. It consists of four reactors, a fifth unit is still under construction. Owner and operator of the power station is Rosenergoatom. Balakovo NPP participates in a program between nuclear power stations in Europe and Russia, since 1990 it has been in partnership with Biblis Nuclear Power Plant. This event is cited as one of the predecessors of the Chernobyl disaster, Nuclear power in Russia Balakovo NPP site – website in English Rosenergoatom – website in Russian and English Bellona Foundation, Balakovo NPP – International environmental organization

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Панорама Башкирская АЭС. Виртуальный тур Башкирская АЭС. Достопримечательности, карта, фото, видео.

Башки́рская а́томная электроста́нция — недостроенная атомная электростанция, расположенная вблизи города Агидели в Башкортостане у слияния рек Белой и Камы. В 1990 году под давлением общественности после аварии на Чернобыльской АЭС строительство Башкирской АЭС было остановлено. Она повторила участь однотипных ей недостроенных Татарской и Крымской АЭС.

История строительства

В конце 1960-х годов в СССР был проведён анализ топливно-энергетического баланса страны и отдельных её регионов. На основании этого анализа специалисты сделали заключение, что через 10—15 лет значительная часть энергоресурсов Европейской части СССР должна будет базироваться на генерирующих мощностях атомных электростанций. В связи с этим, наряду с изучением условий для размещения АЭС в Центральном районе, была рассмотрена возможность строительства атомной станции и в Уральском регионе, в частности на территории Башкирии. Требования к месторасположению строительной площадки мощной электростанции предъявлялись предельно жёсткие. Определяющим фактором было наличие надёжного и экономичного источника технического водоснабжения. В первую очередь для строительства АЭС рекомендовались пункты, где можно было создать оборотную систему водоснабжения на существующих водоёмах и реках. Большое внимание уделялось инженерно-геологическим условиям местности. Учитывались также транспортная доступность, населённость местности, ветровой режим, условия создания санитарно-защитной зоны и многое другое. В результате, по совокупной возможности выполнения всех предъявляемых требований, в Краснокамском районе Башкирской АССР была выбрана площадка для строительства атомной электростанции и её города-спутника. Проект Башкирской АЭС разработан в соответствии с Постановлением ЦК КПСС и Совета Министров СССР от 26 июня 1980 года № 540—176 на мощность 4000 МВт с расширением до 6000 МВт. С открытием финансирования, в 1980 году началось строительство Башкирской АЭС и города Агидели. Проектная мощность станции должна была составить 4000 МВт — типовой проект, аналогичный действующим Балаковской и Калининской АЭС, недоведённым до проектных мощностей Хмельницкой и Волгодонской АЭС, а также недостроенной Крымской АЭС. Проект предусматривал размещение на площадке станции 4-х энергоблоков с реакторами ВВЭР-1000. Запуск энергоблоков должен был осуществляться по мере их возведения, этот принцип поточного строительства уже был отработан при сооружении Балаковской АЭС. В сентябре 1990 года строительство Башкирской АЭС было прекращено на основании Постановления Верховного Совета Башкирской АССР «О прекращении строительства Башкирской атомной станции», инициированного Госкомитетом СССР по охране природы, который доложил Совету Министров СССР письмом от 14.12.90 г о невозможности «осуществления строительства БашАЭС по проекту, разработанному на основе устаревших нормативных документов и без учета результатов оценки воздействия на окружающую среду». К этому времени на сооружение промышленных и социально-культурных объектов… ... (Русский)

www.streetvi.ru

Башкирская АЭС Википедия

Данные в этой статье приведены по состоянию на 2006 год.

Вы можете помочь, обновив информацию в статье.

Башкирская АЭС
Россия Россия
Башкортостан Башкортостан
1980 год
строительство остановлено в 1990
филиал Концерна «Росэнергоатом» «Дирекция строящейся Башкирской АЭС»
4000 МВт (планировавшаяся)
0
3, строительство остановлено в 1990 году
ВВЭР-1000
0
Башкирская АЭС

Проект Башкирской АЭС разработан в соответствии с Постановлением ЦК КПСС и Совета Министров СССР от 26 июня 1980 года № 540—176 на мощность 4000 МВт с расширением до 6000 МВт.[1]

С открытием финансирования, в 1980 году началось строительство Башкирской АЭС и города

ruwikiorg.ru

Башкирская АЭС - Вики

Данные в этой статье приведены по состоянию на 2006 год.

Вы можете помочь, обновив информацию в статье.

Башкирская АЭС
Россия Россия
Башкортостан Башкортостан
1980 год
строительство остановлено в 1990
филиал Концерна «Росэнергоатом» «Дирекция строящейся Башкирской АЭС»
4000 МВт (планировавшаяся)
0
3, строительство остановлено в 1990 году
ВВЭР-1000
0
Башкирская АЭС

С открытием финансирования, в 1980 году началось строительство Башкирско

ru.wikiredia.com

Башкирская АЭС — Википедия

Материал из Википедии — свободной энциклопедии

Текущая версия страницы пока не проверялась опытными участниками и может значительно отличаться от версии, проверенной 6 июня 2016; проверки требуют 20 правок.

Данные в этой статье приведены по состоянию на 2006 год.

Вы можете помочь, обновив информацию в статье.

Башкирская АЭС
Россия Россия
Башкортостан Башкортостан
1980 год
строительство остановлено в 1990
филиал Концерна «Росэнергоатом» «Дирекция строящейся Башкирской АЭС»
4000 МВт (планировавшаяся)
0
3, строительство остановлено в 1990 году
ВВЭР-1000
0
Башкирская АЭС

С открытием финансирования, в 1980 году началось строительство Башкирской АЭС и города Агидели.

Проектная мощность станции должна была составить 4000 МВт — типовой проект, аналогичный действующим Балаковской и Калининской АЭС, недоведённым до проектных мощностей Хмельницкой и Волгодонской АЭС, а также недостроенной Крымской АЭС. Проект предусматривал размещение на площадке станции 4-х энергоблоков с реакторами ВВЭР-1000. Запуск энергоблоков должен был осуществляться по мере их возведения, этот принцип поточного строительства уже был отработан при сооружении Балаковской АЭС.

В сентябре 1990 года строительство Башкирской АЭС было прекращено на основании Постановления Верховного Совета Башкирской АССР «О прекращении строительства Башкирской атомной станции», инициированного Госкомитетом СССР по охране природы, который доложил Совету Министров СССР письмом от 14.12.90 г о невозможности «осуществления строительства БашАЭС по проекту, разработанному на основе устаревших нормативных документов и без учёта результатов оценки воздействия на окружающую среду»[2]. К этому времени на сооружение промышленных и социально-культурных объектов было затрачено около 800 млн долларов[3].

К моменту остановки строительства было начато возведение реакторного отделения и машинного зала первого энергоблока, подготовлены котлованы под 2 и 3 энергоблоки. Это означало очень высокую готовность объектов станции, поскольку

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