Маратайская электростанция
| Маратайская электростанция | |
|---|---|
  Расположение электростанции Maraetai в Новой Зеландии | |
| Страна | Новая Зеландия |
| Location | near Mangakino, Waikato |
| Coordinates | 38°21′9″S 175°44′38″E / 38.35250°S 175.74389°E |
| Status | Operational |
| Construction began | 1946 |
| Opening date | September 1953 |
| Owner(s) | Mercury Energy |
| Dam and spillways | |
| Type of dam | Arch dam |
| Impounds | Waikato River |
| Height | 87 m (285 ft) |
| Length | 133 m (436 ft) |
| Width (crest) | 11 m (36 ft) |
| Width (base) | 15.2 m (50 ft) |
| Spillways | 1 |
| Reservoir | |
| Creates | Lake Maraetai |
| Surface area | 4.1 km2 (1.6 sq mi) |
| Commission date | September 1953 (Maraetai I) February 1971 (Maraetai II) |
| Type | Conventional |
| Hydraulic head | 61 m (200 ft) |
| Turbines | 10 × Francis |
| Installed capacity | 360 MW |
| Annual generation | 885 GWh |
Вланка Maraetai - это гидроэлектростанция на реке Вайкато , на северном острове Новая Зеландия . Это пятая из восьми гидроэлектростанций на реке Вайкато, а при 360 МВт - самая большая гидроэлектростанция на Вайкато.
На станции есть две мощные дома - электростанция Maraetai I находится прямо перед плотиной Maraetai, в то время как электростанция Maraetai II расположена на 550 метров (1800 футов) ниже по течению от Maraetai I. Хотя оба полностью отделены, обе электроэнергии управляются как одна электростанция.
Maraetai принадлежит и управляется Mercury Energy .
История
[ редактировать ]Maraetai i
[ редактировать ]In early 1946, the Minister of Public Works Bob Semple, announced a full development of the Waikato River, with the first three stations planned at Ohakuri, Whakamaru, and Maraetai. Although Ohakuri was chosen first, the choice soon shifted to Whakamaru as it would be the best location for transmission needs. However, more investigation had been done for the Maraetai site, and starting Whakamaru first would make it more complex to divert the river for Maraetai later, so it was decided to build Maraetai first.[1]
Investigations into a hydroelectric station at Maraetai had been completed between 1940 and 1945. The site was in a deep narrow gorge, west of Tokoroa and 20 miles (32 km) upstream of Arapuni. Because of the narrowness of the gorge, the powerhouse took up the entire length of the base of the dam, meaning no orthodox spillway could be constructed. This meant that the spillway had to be designed as part of the diversion tunnel. The site was composed of volcanic ignimbrite, which had cracked extensively on cooling meaning extensive grouting of the rock was required.[2]
Construction of Maraetai I began in 1946, with the construction of an access road from Tokoroa, and establishing services and accommodation for the workers of the dam. The service and accommodation camp formed the town of Mangakino, on the south shore of what would become Lake Maraetai. Problems were encountered right from the beginning - the Second World War had just ended, which meant there was a great deal of shortages of labour and materials. The Public Works department's work-force was less than two-thirds of its pre-war size, with thousands of vacancies not filled. Concrete and steel were also in short supply, as steel imports were less than half their pre-war levels, and local contractors could only produce two-thirds of the required amount of concrete. Combined with industrial unrest and the nature of the site, the target completion date of 1951 became less achievable.[1]
Work on the diversion tunnel - 25 feet (7.6 m) in diameter and 1,685 feet (514 m) in length - began in late 1946 on the southern side of the site. However, work was slowed by large amounts of water that poured into the tunnel until it was extensively grouted with cement and bitumen and lined with concrete. Because of the constant water seepage, it was not uncommon for the workers to work in knee-high or even waist-high water. By 1948, some 800 workers were working on the site. The tunnel was completed in March 1949, when the northern portal was opened and the first water flowed through the tunnel. Work then started by building cofferdams to block the natural channel of the river and allow dam construction to begin. The Taupō control gates were shut to lower the water level in the Waikato, and 11 bulldozers frantically pushed spoil into the river to stop the natural flow. The process was hampered by unexpected heavy rain which caused the river to rapidly rise, with it taking 27 hours to finally dam the river's natural course. The spillway tunnel was then constructed, which dropped at a 45-degree angle to intersect with the diversion tunnel.[1]
In late 1949, work finally started on the dam foundations. Extensive and careful grouting of the rock took place, reaching 200 feet (61 m) below the river bed, and along the sides for a length of 1,000 feet (300 m). The grouting involved drilling thousands of holes in the rock face, and 11,000 tonnes (11,000 long tons; 12,000 short tons) of cement was used in the process.[1][2]
Construction of the dam began in September 1950, and soon the work force had reached its peak of 1200. A large mechanised batching plant had been bought on site to produce in excess of 153,000 cubic metres (200,000 cu yd) of concrete that was required for the dam, which was reinforced with 5,000 tonnes (4,900 long tons; 5,500 short tons) of steel. For the first time in New Zealand, a system of cooling mass concrete was used. This involved embedded pipes through which refrigerated water was passed.[1][2]
The powerhouse was constructed rapidly to have the machines operating as soon as possible. The foundations were started in early 1950, and the powerhouse was completed within a year. It consisted of a steel structural frame with a pre-cast concrete sectional roof. The transformer station was placed at the back and on top of the powerhouse itself due to the confines of the gorge.[1][2]
The Public Works Department wanted to source major equipment from outside the usual United Kingdom because of tight delivery dates, and British firms' lack of experience in constructing large turbines, generators and 220 kV equipment. Eventually, contracts were let to Canada for the generators and the United States for the turbines, both being more experienced and the price being 40% less than the British equivalent. For the spillway gates and frames, a tender from West Germany only five years after the Second World War was quite surprisingly accepted by Cabinet, being one-third lower and one year faster than the lowest British offer.[1]
By mid-1951, the penstocks had been installed and the first three machines had been installed. On 31 October 1952, Maraetai generated its first electricity, producing 30 megawatts (40,000 hp)on a reduced load and half head. Temporary flumes transported water through the powerhouse from the two remaining penstocks. The reduced head was maintained while the diversion tunnel was stopped with a huge 30-metre (98 ft) long concrete plug. The head was raised to 175 feet (53 m) in April 1953, and the station was officially opened on 5 September 1953 - two years after the target completion date.[1][2]
The fourth machine was installed in January 1954, followed by the fifth and final machine in April. The lake was then raised to its full height of 200 feet (61 m) head.[1][2]
Maraetai II
[edit]The construction of the Maraetai II powerhouse, the last powerhouse to be built on the Waikato River began in 1959, with a 500-metre long canal taking water down the south side of the gorge to the powerhouse. In 1961, work on Maraetai II was suspended when the newly elected National government, led by Sir Keith Holyoake, shifted priority to building the HVDC Inter-Island ("Cook Strait cable") between the North and South Islands, following a significant increase in electricity demand.
With the inter-island link completed in 1965, work recommenced on Maraetai II, with the first two turbines and generators were finally commissioned in July 1970. The last turbine and generator, and the last on the Waikato River, being commissioned in February 1971 - almost 25 years after construction of Maraetai began.[2][3]
Dam
[edit]Плотина Мараетая - это бетонная арка , которая заставляет реку Вайкато за электростанцией Мараетай I и создает озеро Мараетай. Плотина имеет длину 133 метра (436 футов), высотой 87 метров (285 футов) и шириной 15,2 метра (50 футов) у основания и 11 метров (36 футов) на гребне. Когда -то плотина была самой большой гидроэлектростанцией в южном полушарии . [ 3 ]
плотины Рассол расположен к югу от плотины. Из -за расположения плотины в узком ущелье было недостаточно места для построения ортодоксального водосброса, поэтому диверсионный туннель, используемый в строительстве, был переконфигурирован, чтобы стать водосбросом плотины. Туннель водосброса составляет длину 521 метра (1709 футов) и диаметром 7,6 метра (25 футов) и блокируется тремя воротами водосброса, каждый 7,1 метра (23 фута) высотой и 7,16 метров (23,5 фута) шириной.
Поколение
[ редактировать ]Maraetai i
[ редактировать ]Вода для Maraetai I взята с озера Мараетай у плотины и передается в электростанцию пятью стальными ручками , каждые 70 метров (230 футов) длиной и 4,8 метра (16 футов) в диаметре. Вода используется, чтобы повернуть пять вертикальной турбины Франциска , каждая из которых вращается при 167 об / мин. Вода затем откладывается обратно в реку Вайкато.
Каждая из пяти турбин превращает генератор, каждая из которых генерирует 36 МВт электроэнергии при 11 000 вольт. Для получения одного мегаватта электричества, 2000 литров (440 IMP GAL; 530 US GAL) воды должны проходить через турбины каждую секунду. Электричество от каждого генератора затем передается 40-мво- трансформатору , где электричество увеличивается до 220 кВ для передачи.
Шестой Penstock приспособлен к Maraetai I, который доставляет воду в две вспомогательные турбины и генераторы. Эти генераторы используются для выработки электроэнергии для требований как в Maraetai I, так и в Maraetai II. [ 3 ]
Мэри.
[ редактировать ]Вода для Maraetai II перемещается по каналу к югу от плотины к электростанции. Канал до маратай II составляет 550 метров (1800 футов) длиной, 12 метров (39 футов) в ширину и 12 метров (39 футов) глубиной.
Вода доставляется из канала в электростанцию через пять стальных ручек, немного отличающихся от Maraetai I. Переины имеют длину 102 метра (335 футов) и диаметром 4,6 метра (15 футов). Вода используется для того, чтобы повернуть пять турбин с вертикальным Фрэнсисом, вращающиеся на более высокой скорости 187 об / мин.
Генераторы в Maraetai II производят 36 МВт каждая по 11 000 вольт. Это усиливается на 40 трансформаторах MVA до 220 кВ для передачи.
Передача инфекции
[ редактировать ]Электричество с обеих станций отправляется на переключатель Maraetai, между двумя энергетическими домами. Электричество от нижней части электростанции Waipapa в Maraetai через одну циркутную линию 220 кВ (MRI-WPA-A), а затем электричество от Maraetai и Waipapa затем передается в Whakamaru через две линии с одной циркой 220 кВ (MRI-WKM- A и MRI-WKM-B).
защиты, производство электроэнергии Miltai распределяется по в сетке Transpower 220 кВ Гамильтон , Таупо север От и Окленд .
Ссылки
[ редактировать ]- ^ Подпрыгнуть до: а беременный в дюймовый и фон глин час я Мартин, Джон, изд. (1991). Люди, политика и электростанции: электроэнергия в Новой Зеландии 1880-1990 . Веллингтон, Новая Зеландия: Бриджит Уильямс книги, Электрическая корпорация Новой Зеландии. С. 154–159. ISBN 0-908912-16-1 .
- ^ Подпрыгнуть до: а беременный в дюймовый и фон глин «Маратайская история» . Могущественная речная власть. Архивировано из оригинала 27 сентября 2011 года . Получено 2009-05-04 .
- ^ Подпрыгнуть до: а беременный в «Техническая информация Maraetai» . Могущественная речная власть. Архивировано из оригинала 10 июня 2011 года . Получено 2009-05-04 .
Внешние ссылки
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Выработка электроэнергии в Вайкато регионе |
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