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Kurobe Gorge

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Kurobe Gorge ( 黒部峡谷 , Kurobe-kyokoku ) is a canyon near Kurobe , Toyama Prefecture , Japan .

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60-710: The Kurobe Dam in Kurobe Gorge is one of highlights of the Tateyama Kurobe Alpine Route . The area was designated the Chūbu-Sangaku National Park on December 4, 1934. Shimonoroka, or lower corridor , is the central Kurobe Gorge. Shimonoroka can be accessed by using the Nichiden hodo (Nichiden Trail) or Suihei hodo (Horizontal Trail). These trails are very dangerous; they can be only 20–50 cm wide and lie 500 m above

120-653: A steam power plant . The first practical design was the AVCO Mk. 25, developed in 1965. The U.S. government funded substantial development, culminating in a 25 MW demonstration plant in 1987. In the Soviet Union from 1972 until the late 1980s, the MHD plant U 25 was in regular utility operation on the Moscow power system with a rating of 25 MW, the largest MHD plant rating in the world at that time. MHD generators operated as

180-698: A topping cycle are currently (2007) less efficient than combined cycle gas turbines . Induction AC motors may be used as generators, turning mechanical energy into electric current. Induction generators operate by mechanically turning their rotor faster than the simultaneous speed, giving negative slip. A regular AC non-simultaneous motor usually can be used as a generator, without any changes to its parts. Induction generators are useful in applications like minihydro power plants, wind turbines, or in reducing high-pressure gas streams to lower pressure, because they can recover energy with relatively simple controls. They do not require another circuit to start working because

240-479: A British electrician, J. E. H. Gordon , in 1882. The first public demonstration of an "alternator system" was given by William Stanley Jr. , an employee of Westinghouse Electric in 1886. Sebastian Ziani de Ferranti established Ferranti, Thompson and Ince in 1882, to market his Ferranti-Thompson Alternator , invented with the help of renowned physicist Lord Kelvin . His early alternators produced frequencies between 100 and 300 Hz . Ferranti went on to design

300-436: A foot pump, such generators can be practically used to charge batteries, and in some cases are designed with an integral inverter. An average "healthy human" can produce a steady 75 watts (0.1 horsepower) for a full eight hour period, while a "first class athlete" can produce approximately 298 watts (0.4 horsepower) for a similar period, at the end of which an undetermined period of rest and recovery will be required. At 298 watts,

360-456: A generator and load is shown in the adjacent diagram. The generator is represented by an abstract generator consisting of an ideal voltage source and an internal impedance. The generator's V G {\displaystyle V_{\text{G}}} and R G {\displaystyle R_{\text{G}}} parameters can be determined by measuring the winding resistance (corrected to operating temperature ), and measuring

420-630: A high potential electrode. The charge was generated using either of two mechanisms: electrostatic induction or the triboelectric effect . Such generators generated very high voltage and low current . Because of their inefficiency and the difficulty of insulating machines that produced very high voltages, electrostatic generators had low power ratings, and were never used for generation of commercially significant quantities of electric power. Their only practical applications were to power early X-ray tubes , and later in some atomic particle accelerators . The operating principle of electromagnetic generators

480-449: A magnetic field produces a current which changes direction with each 180° rotation, an alternating current (AC). However many early uses of electricity required direct current (DC). In the first practical electric generators, called dynamos , the AC was converted into DC with a commutator , a set of rotating switch contacts on the armature shaft. The commutator reversed the connection of

540-403: A million amperes , because the homopolar generator can be made to have very low internal resistance. A magnetohydrodynamic generator directly extracts electric power from moving hot gases through a magnetic field, without the use of rotating electromagnetic machinery. MHD generators were originally developed because the output of a plasma MHD generator is a flame, well able to heat the boilers of

600-488: A series of discoveries, the dynamo was succeeded by many later inventions, especially the AC alternator , which was capable of generating alternating current . It is commonly known to be the Synchronous Generators (SGs). The synchronous machines are directly connected to the grid and need to be properly synchronized during startup. Moreover, they are excited with special control to enhance the stability of

660-492: A sliding magnet moves back and forth through a solenoid , a copper wire or a coil. An alternating current is induced in the wire, or loops of wire, by Faraday's law of induction each time the magnet slides through. This type of generator is used in the Faraday flashlight . Larger linear electricity generators are used in wave power schemes. Grid-connected generators deliver power at a constant frequency. For generators of

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720-434: A small DC voltage . This design was inefficient, due to self-cancelling counterflows of current in regions of the disk that were not under the influence of the magnetic field. While current was induced directly underneath the magnet, the current would circulate backwards in regions that were outside the influence of the magnetic field. This counterflow limited the power output to the pickup wires and induced waste heating of

780-450: A stable power supply. Electric scooters with regenerative braking have become popular all over the world. Engineers use kinetic energy recovery systems on the scooter to reduce energy consumption and increase its range up to 40-60% by simply recovering energy using the magnetic brake, which generates electric energy for further use. Modern vehicles reach speed up to 25–30 km/h and can run up to 35–40 km. An engine-generator

840-417: A water- or wind-powered generator to trickle-charge the batteries. A small propeller , wind turbine or turbine is connected to a low-power generator to supply currents at typical wind or cruising speeds. Recreational vehicles need an extra power supply to power their onboard accessories, including air conditioning units, and refrigerators. An RV power plug is connected to the electric generator to obtain

900-426: Is 1,454 m (4,770 ft) above sea level while the reservoir's normal operating level is 1,448 m (4,751 ft) and low level is considered 1,338 m (4,390 ft). The dam's power station, Kurobe No. 4, is located underground and contains four generators which are powered by Pelton turbines for a total installed capacity of 335 MW and average annual generation of 1 billion kWh . The power station

960-469: Is 22 m (72 ft) wide, 33 m (108 ft) high and 117 m (384 ft) long. The penstock serving water to the power station is 10,909.6 m (35,793 ft) long and utilizes a maximum effective hydraulic head of 545.5 m (1,790 ft) while transferring a maximum of 72 m /s (2,500 cu ft/s) to the turbines. The plant's surge chamber is 145.6 m (478 ft) long and 5 m (16 ft) high. The Kurobe Dam

1020-562: Is an industrial facility that generates electricity . Most power stations contain one or more generators, or spinning machines converting mechanical power into three-phase electrical power . The relative motion between a magnetic field and a conductor creates an electric current . The energy source harnessed to turn the generator varies widely. Most power stations in the world burn fossil fuels such as coal , oil , and natural gas to generate electricity. Cleaner sources include nuclear power , and increasingly use renewables such as

1080-400: Is done by an electric motor , and motors and generators are very similar. Many motors can generate electricity from mechanical energy. Electromagnetic generators fall into one of two broad categories, dynamos and alternators. Mechanically, a generator consists of a rotating part and a stationary part which together form a magnetic circuit : One of these parts generates a magnetic field,

1140-527: Is flanked and supported by two "wing" dams which form the abutments ; the one on the left bank is 69 m (226 ft) long and the right is 56 m (184 ft). The dam withholds a reservoir with a capacity of 199,285,175 m (260,655,168 cu yd) of which 148,843,000 m (194,679,000 cu yd) is live (active or "useful") storage. The reservoir also has a catchment area of 188.5 km (72.8 sq mi) and surface area of 3.49 km (1.35 sq mi). The dam's spillway

1200-440: Is located on its crest and contains 10 11.5 m (38 ft) wide uncontrolled openings with a maximum discharge capacity of 906 m /s (32,000 cu ft/s). Three other openings exist in the dam's orifice which consist of 1.5 m (4.9 ft) diameter pipes, two of which can discharge a maximum of 88 m /s (3,100 cu ft/s) each and the third 44 m /s (1,600 cu ft/s). The dam's crest elevation

1260-511: Is mainly set in a UN research facility located around the lake. Electrical generator In electricity generation , a generator is a device that converts motion-based power ( potential and kinetic energy ) or fuel-based power ( chemical energy ) into electric power for use in an external circuit . Sources of mechanical energy include steam turbines , gas turbines , water turbines , internal combustion engines , wind turbines and even hand cranks . The first electromagnetic generator,

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1320-497: Is provided by one or more electromagnets, which are usually called field coils. Large power generation dynamos are now rarely seen due to the now nearly universal use of alternating current for power distribution. Before the adoption of AC, very large direct-current dynamos were the only means of power generation and distribution. AC has come to dominate due to the ability of AC to be easily transformed to and from very high voltages to permit low losses over large distances. Through

1380-415: Is self- excited , i.e. its field electromagnets are powered by the machine's own output. Other types of DC generators use a separate source of direct current to energise their field magnets. A homopolar generator is a DC electrical generator comprising an electrically conductive disc or cylinder rotating in a plane perpendicular to a uniform static magnetic field. A potential difference is created between

1440-405: Is the ability to independently supply electricity, allowing the units to serve as backup power sources. A generator can also be driven by human muscle power (for instance, in field radio station equipment). Human powered electric generators are commercially available, and have been the project of some DIY enthusiasts. Typically operated by means of pedal power, a converted bicycle trainer, or

1500-485: Is the combination of an electrical generator and an engine ( prime mover ) mounted together to form a single piece of self-contained equipment. The engines used are usually piston engines, but gas turbines can also be used, and there are even hybrid diesel-gas units, called dual-fuel units. Many different versions of engine-generators are available – ranging from very small portable petrol powered sets to large turbine installations. The primary advantage of engine-generators

1560-730: Is the most popular hydropower site in Japan and, between late June and mid-October, water is released from its spillway for onlookers. The surrounding Kurobe Gorge is popular as well and is accessible by the Tateyama Kurobe Alpine Route . Starting from Toyama Station, visitors can take a combination of trains, cable cars, buses, and walking to access the dam. The whole trip from Toyama Station takes roughly four hours to complete one-way, and costs around 10,000 yen($ 66.68 USD) in transportation fees. Various accommodations are available in Murodo area as well as near Tateyama Station, for those too tired to make

1620-805: The Deptford Power Station for the London Electric Supply Corporation in 1887 using an alternating current system. On its completion in 1891, it was the first truly modern power station, supplying high-voltage AC power that was then "stepped down" for consumer use on each street. This basic system remains in use today around the world. After 1891, polyphase alternators were introduced to supply currents of multiple differing phases. Later alternators were designed for varying alternating-current frequencies between sixteen and about one hundred hertz, for use with arc lighting, incandescent lighting and electric motors. As

1680-407: The Faraday disk , was invented in 1831 by British scientist Michael Faraday . Generators provide nearly all the power for electrical grids . In addition to electricity- and motion-based designs, photovoltaic and fuel cell powered generators use solar power and hydrogen-based fuels, respectively, to generate electrical output. The reverse conversion of electrical energy into mechanical energy

1740-620: The Kansai region of Japan. Shortly after their formation, the area suffered from drought , which caused power rationing. The drought, along with the rapid growth of post– World War II Japan, pushed the company to increase their generating capacity. After a series of geological and hydrological studies of the Kurobe River and Gorge, it was announced in late 1955 that the Kurobe Dam would be constructed. In July 1956, construction on

1800-560: The Kurobe River in Toyama Prefecture , Japan . The tallest dam in Japan , it supports the 335 MW Kurobe No. 4 Hydropower Plant and is owned by Kansai Electric Power Company . It was constructed between 1956 and 1963 at a cost of 51.3 billion yen . The project had taken the lives of 171 people by its completion. In 1951, the Kansai Electric Power Company was formed to provide electric power for

1860-671: The Air ), medical and other needs in remote stations and towns. A tachogenerator is an electromechanical device which produces an output voltage proportional to its shaft speed. It may be used for a speed indicator or in a feedback speed control system. Tachogenerators are frequently used to power tachometers to measure the speeds of electric motors, engines, and the equipment they power. Generators generate voltage roughly proportional to shaft speed. With precise construction and design, generators can be built to produce very precise voltages for certain ranges of shaft speeds. An equivalent circuit of

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1920-478: The armature winding to the circuit every 180° rotation of the shaft, creating a pulsing DC current. One of the first dynamos was built by Hippolyte Pixii in 1832. The dynamo was the first electrical generator capable of delivering power for industry. The Woolrich Electrical Generator of 1844, now in Thinktank, Birmingham Science Museum , is the earliest electrical generator used in an industrial process. It

1980-436: The armature winding. When the generator first starts to turn, the small amount of remanent magnetism present in the iron core provides a magnetic field to get it started, generating a small current in the armature. This flows through the field coils, creating a larger magnetic field which generates a larger armature current. This "bootstrap" process continues until the magnetic field in the core levels off due to saturation and

2040-402: The assistance of power electronic devices, these can regulate the output frequency to a desired value over a wider range of generator shaft speeds. Alternatively, a standard generator can be used with no attempt to regulate frequency, and the resulting power converted to the desired output frequency with a rectifier and converter combination. Allowing a wider range of prime mover speeds can improve

2100-464: The average "healthy human" becomes exhausted within 10 minutes. The net electrical power that can be produced will be less, due to the efficiency of the generator. Portable radio receivers with a crank are made to reduce battery purchase requirements, see clockwork radio . During the mid 20th century, pedal powered radios were used throughout the Australian outback , to provide schooling ( School of

2160-409: The bicycle's tire on an as-needed basis, and hub dynamos which are directly attached to the bicycle's drive train. The name is conventional as they are small permanent-magnet alternators, not self-excited DC machines as are dynamos . Some electric bicycles are capable of regenerative braking , where the drive motor is used as a generator to recover some energy during braking. Sailing boats may use

2220-597: The center of the disc and the rim (or ends of the cylinder), the electrical polarity depending on the direction of rotation and the orientation of the field. It is also known as a unipolar generator , acyclic generator , disk dynamo , or Faraday disc . The voltage is typically low, on the order of a few volts in the case of small demonstration models, but large research generators can produce hundreds of volts, and some systems have multiple generators in series to produce an even larger voltage. They are unusual in that they can produce tremendous electric current, some more than

2280-436: The copper disc. Later homopolar generators would solve this problem by using an array of magnets arranged around the disc perimeter to maintain a steady field effect in one current-flow direction. Another disadvantage was that the output voltage was very low, due to the single current path through the magnetic flux. Experimenters found that using multiple turns of wire in a coil could produce higher, more useful voltages. Since

2340-418: The dam began. Problems quickly arose while transporting material to the construction site as only one small railway existed through the narrow gorge. Kansai decided to construct the 5.4 kilometres (3.4 mi) Kanden Tunnel under Mount Akazawa that could efficiently bring supplies from Ōmachi eastward towards the construction site. The tunnel's construction proved an arduous task as a large fracture zone in

2400-434: The development of Japan's first 275kV transmission system as well which allowed the transfer of electricity over greater distances. The Kurobe Dam is a 492 m (1,614 ft) long and 186 m (610 ft) high, variable-radius (dome) arch dam. The dam is 39.7 m (130 ft) wide at its base, 8.1 m (27 ft) wide at its crest and contains 1,582,845 m (2,070,283 cu yd) of concrete. The dam

2460-413: The first major industrial uses of electricity. For example, in the 1870s Siemens used electromagnetic dynamos to power electric arc furnaces for the production of metals and other materials. The dynamo machine that was developed consisted of a stationary structure, which provides the magnetic field, and a set of rotating windings which turn within that field. On larger machines the constant magnetic field

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2520-476: The generator reaches a steady state power output. Very large power station generators often utilize a separate smaller generator to excite the field coils of the larger. In the event of a severe widespread power outage where islanding of power stations has occurred, the stations may need to perform a black start to excite the fields of their largest generators, in order to restore customer power service. A dynamo uses commutators to produce direct current. It

2580-403: The opening scene of the 1966 film Gamera vs. Barugon , in which Gamera attacks the facility’s hydroelectric plant to obtain energy in the form of fire. The dam itself then bursts after Gamera collides with it twice while flying away. The 2000 action thriller Whiteout was shot in and around Kurobe Dam, renamed Okutowa Dam in the film. The mecha anime television series Kuromukuro (2016)

2640-467: The other has a wire winding in which the changing field induces an electric current: The armature can be on either the rotor or the stator, depending on the design, with the field coil or magnet on the other part. Before the connection between magnetism and electricity was discovered, electrostatic generators were invented. They operated on electrostatic principles, by using moving electrically charged belts, plates and disks that carried charge to

2700-413: The output voltage is proportional to the number of turns, generators could be easily designed to produce any desired voltage by varying the number of turns. Wire windings became a basic feature of all subsequent generator designs. Independently of Faraday, Ányos Jedlik started experimenting in 1827 with the electromagnetic rotating devices which he called electromagnetic self-rotors . In the prototype of

2760-443: The overall energy production of an installation, at the cost of more complex generators and controls. For example, where a wind turbine operating at fixed frequency might be required to spill energy at high wind speeds, a variable speed system can allow recovery of energy contained during periods of high wind speed. A power station , also known as a power plant or powerhouse and sometimes generating station or generating plant ,

2820-472: The power system. Alternating current generating systems were known in simple forms from Michael Faraday 's original discovery of the magnetic induction of electric current . Faraday himself built an early alternator. His machine was a "rotating rectangle", whose operation was heteropolar : each active conductor passed successively through regions where the magnetic field was in opposite directions. Large two-phase alternating current generators were built by

2880-399: The requirements for larger scale power generation increased, a new limitation rose: the magnetic fields available from permanent magnets. Diverting a small amount of the power generated by the generator to an electromagnetic field coil allowed the generator to produce substantially more power. This concept was dubbed self-excitation . The field coils are connected in series or parallel with

2940-479: The riverbed. In October 2019, five people died on the trails. Kaminoroka means Higher corridor . The gorge can be accessed by the Kurobe Gorge Railway . This Toyama location article is a stub . You can help Misplaced Pages by expanding it . Kurobe Dam The Kurobe Dam ( 黒部ダム ) , or Kuroyon Dam ( 黒四ダム ) , is a 186 m (610 ft) high variable-radius arch dam located on

3000-468: The rock was encountered which took seven months to repair. In September 1959, the first concrete for the dam was placed and by October next year, the reservoir had begun to fill. The Kurobe No. 4 power station was built completely underground to protect it from common avalanches in the gorge and also for nature conservation purposes. By January 1961, two of Kurobe No. 4's Pelton turbines had begun operation at an initial capacity of 154 MW. In August 1962,

3060-449: The single-pole electric starter (finished between 1852 and 1854) both the stationary and the revolving parts were electromagnetic. It was also the discovery of the principle of dynamo self-excitation , which replaced permanent magnet designs. He also may have formulated the concept of the dynamo in 1861 (before Siemens and Wheatstone ) but did not patent it as he thought he was not the first to realize this. A coil of wire rotating in

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3120-521: The stator field. Wheatstone's design was similar to Siemens', with the difference that in the Siemens design the stator electromagnets were in series with the rotor, but in Wheatstone's design they were in parallel. The use of electromagnets rather than permanent magnets greatly increased the power output of a dynamo and enabled high power generation for the first time. This invention led directly to

3180-611: The sun , wind , waves and running water . Motor vehicles require electrical energy to power their instrumentation, keep the engine itself operating, and recharge their batteries. Until about the 1960s motor vehicles tended to use DC generators (dynamos) with electromechanical regulators. Following the historical trend above and for many of the same reasons, these have now been replaced by alternators with built-in rectifier circuits. Bicycles require energy to power running lights and other equipment. There are two common kinds of generator in use on bicycles: bottle dynamos which engage

3240-476: The synchronous or induction type, the primer mover speed turning the generator shaft must be at a particular speed (or narrow range of speed) to deliver power at the required utility frequency. Mechanical speed-regulating devices may waste a significant fraction of the input energy to maintain a required fixed frequency. Where it is impractical or undesired to tightly regulate the speed of the prime mover, doubly fed electric machines may be used as generators. With

3300-428: The third turbine was in operation and by June 1963, the dam was complete at a final cost of ¥ 51.3 billion ($ 142.5 million (1963)). In 1973, a fourth turbine was installed and became operational; bringing the power station's production capacity to 335 MW. The fourth turbine cost ¥ 1.4 billion yen ($ 5 million (1973)). The first two turbines were manufactured by Voith and the last two by Japan's Hitachi . The dam initiated

3360-411: The trip back down into Toyama City. The novel The Sun of Kurobe (黒部の太陽; Kurobe no Taiyō) dramatizes the construction of the dam. It was adapted into the 1968 film The Sands of Kurobe , which focuses on the perils that the construction of the dam and Kanden Tunnel entailed and other circumstances that took a high toll on human life. The television series Project X: Chôsensha tachi (2000-2005)

3420-421: The turning magnetic field is provided by induction from the one they have. They also do not require speed governor equipment as they inherently operate at the connected grid frequency. An induction generator must be powered with a leading voltage; this is usually done by connection to an electrical grid, or by powering themselves with phase correcting capacitors. In the simplest form of linear electric generator,

3480-534: Was also based on the dam's construction. The final arc of the 2004 Tetsujin 28-go anime, which takes place in a fictionalized 1950s Japan, heavily involves the construction of the Kurobe Dam. The 1961 kaiju film Mothra includes an action sequence filmed at the dam before its completion. Mothra's attack causes the dam to break. Kurobe dam can be seen in the 1964 film Ghidorah, the Three-Headed Monster . Kurobe Dam features prominently in

3540-427: Was discovered in the years of 1831–1832 by Michael Faraday . The principle, later called Faraday's law , is that an electromotive force is generated in an electrical conductor which encircles a varying magnetic flux . Faraday also built the first electromagnetic generator, called the Faraday disk ; a type of homopolar generator , using a copper disc rotating between the poles of a horseshoe magnet . It produced

3600-597: Was used by the firm of Elkingtons for commercial electroplating . The modern dynamo, fit for use in industrial applications, was invented independently by Sir Charles Wheatstone , Werner von Siemens and Samuel Alfred Varley . Varley took out a patent on 24 December 1866, while Siemens and Wheatstone both announced their discoveries on 17 January 1867 by delivering papers at the Royal Society . The "dynamo-electric machine" employed self-powering electromagnetic field coils rather than permanent magnets to create

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