Allmänna Svenska Elektriska Aktiebolaget ( English translation: General Swedish Electrical Limited Company ; Swedish abbreviation: ASEA ) was a Swedish industrial company.
37-547: The European super grid is a possible future super grid that would ultimately interconnect the various European countries and the regions around Europe 's borders – including North Africa , Kazakhstan , and Turkey – with a high-voltage direct current (HVDC) power grid. It is envisaged that a European super grid would: A recent study from the University College Dublin (UCD) Energy Institute indicates that implementing
74-572: A memorandum of understanding (MoU) was signed between Medgrid and Desertec Industry Initiative (Dii) to study, design and promote an interconnected electrical grid with Desertec & Medgrid projects. The medgrid together with Desertec would serve as the backbone of the European super grid and the benefits of investing in HVDC technology are being assessed to reach the final goal – the supersmart grid . A report by Pöyry stated that
111-472: A global energy transition by smoothing local fluctuations of wind energy and solar energy . In this context they are considered as a key technology to mitigate global warming . The idea of creating long-distance transmission lines in order to take advantage of renewable sources distantly located is not new. In the US in the 1950s, a proposal was made to ship hydroelectric power from dams being constructed in
148-588: A manufacturer of electrical light and generators. After merging with Wenström's & Granström's Electrical Power Company ( Wenströms & Granströms Elektriska Kraftbolag ) the name was changed to Allmänna Svenska Elektriska Aktiebolaget , literally the "General Swedish Electrical Limited Company", or ASEA for short. In 1987, it announced a merger with the Swiss company Brown, Boveri & Cie (BBC) to form ABB . The merge took effect on 1 January 1988. After this merger, ABB acquired several companies, including
185-566: A pan-European 'supergrid' could lead to a 32% reduction in energy costs across the continent. The most comprehensive study has been carried out by Dr Gregor Czisch, of Kassel University. His study optimised a vast grid covering North Africa, Eastern Europe, Norway, and Iceland. His study ran a number of scenarios, wind, concentrating solar power (CSP), nuclear etc., and the optimisation showed that all European power could largely come from wind energy, with relatively low amounts of combustion plant needed during universal low wind periods. Furthermore,
222-594: A result of network complexity, transmission congestion , and the need for rapid diagnostic, coordination and control systems. Such studies observe that transmission capacity would need to be significantly higher than current transmission systems in order to promote unimpeded energy trading across distances unbounded by state, regional or national, or even continental borders. As a practical matter, it has become necessary to incorporate smart grid features such as wide area sensor networks (WAMS) into even modest-sized regional grids in order to avert major power outages such as
259-402: A super grid is a very long-distance equivalent of a wide area synchronous network capable of large-scale transmission of renewable electricity. In some conceptions, a transmission grid of HVDC transmission lines forms a layer that is distinctly separate in the way that a superhighway system is separate from the system of city streets and regional highways. In more conventional conceptions such as
296-416: A super grid would only partially reduce the problems from intermittent renewable energy production. While it found that spreading renewables across Europe produced a smoothing effect, large scale weather patterns would impact many European countries at similar times. This still results in large highs and lows of energy output. However this report does not consider the super grid covering the much larger area as
333-549: Is a wide area mega grid, but also because it is highly coordinated from a macro level spanning nations and continents, all the way down to the micro-level scheduling low priority loads like water heaters and refrigeration. In the European SuperSmart Grid proposal and the US Unified Smart Grid concept, such super grids have intelligence features in the wide-area transmission layer which integrate
370-410: Is argued that a high capacity super grid must be built in order to provide a distribution network so comprehensive and with such available capacity that energy trading is only limited by how much electricity entrepreneurs can bring to market. Wide area super grids plans typically call for bulk transmission using high voltage direct current lines. Europe's SuperSmart Grid proposal relies on HVDC, and in
407-463: Is because the feeder line from the generator to the transmission lines is usually paid for by the owner of the generation. Some localities will help pay for the cost of these lines, at the cost of local regulation such as that of a public utilities commission . T. Boone Pickens' project has chosen to pay for the feeder lines privately. Some localities, such as Texas give such projects the power of eminent domain which allows companies to seize land in
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#1732801014753444-474: Is the scale of energy and distances that are imagined possible in a super grid. Europe began unifying its grids in the 1950s and its largest unified grid is the synchronous grid of Continental Europe serving 24 countries. Serious work is being conducted on unification of this synchronous European grid (previously known as the UCTE grid), with the neighboring synchronous transmission grid of some CIS countries,
481-667: The IPS/UPS grid. If completed, the resulting massive grid would span 13 time zones stretching from the Atlantic to the Pacific. While such grids cover great distances, the capacity to transmit large volumes of electricity remains limited due to congestion and control issues. The SuperSmart Grid (Europe) and the Unified Smart Grid (US) specify major technological upgrades that proponents claim are necessary to assure
518-484: The Northeast Blackout of 2003 . Dynamic interactions between power generation groups are increasingly complex, and transient disturbances that cascade across neighboring utilities can be sudden, large and violent, accompanied by abrupt changes in the network topology as operators attempt to manually stabilize the network. In the second sense of an advanced grid, the super grid is superior not only because it
555-642: The Pacific Intertie project with a set of technical objections that were overruled. When the project was completed, consumers in Los Angeles saved approximately U.S. $ 600,000 per day by use of electric power from projects on the Columbia River rather than local power companies burning more expensive fossil fuel. ASEA ASEA was founded in 1883 by Ludvig Fredholm in Västerås as
592-562: The Pacific Northwest to consumers in Southern California , but it was opposed and scrapped. In 1961, U.S. president John F. Kennedy authorized a large public works project using new high-voltage, direct current technology from Sweden . The project was undertaken as a close collaboration between General Electric of the U.S. and ASEA of Sweden , and the system was commissioned in 1970. With several upgrades of
629-409: The electricity transmission corridors used by the new transmission lines of a super grid. There can be significant opposition to the siting of power lines out of concerns about visual impact, anxiety over perceived health issues, and environmental concerns. The US has a process of designating National Interest Electric Transmission Corridors , and it is likely that this process would be used to specify
666-642: The British electricity transmission system that are connected at voltages in excess of 200 kV (200,000 volts). British power system planners and operational staff therefore invariably speak of the Supergrid in this context; in practice the definition used captures all of the equipment owned by the National Grid company in England and Wales, and no other equipment. What has changed during the past 40 years
703-669: The Czisch study, which would further smooth energy output to some extent. Super grid A super grid or supergrid is a wide-area transmission network , generally trans-continental or multinational, that is intended to make possible the trade of high volumes of electricity across great distances. It is sometimes also referred to as a "mega grid". Super grids typically are proposed to use high-voltage direct current (HVDC) to transmit electricity long distances. The latest generation of HVDC power lines can transmit energy with losses of only 1.6% per 1,000 km. Super grids could support
740-542: The European-wide adoption of renewable energy and interlinking power grids using HVDC cables, indicates that Europe's entire power usage could come from renewables, with 70% total energy from wind at the same level of cost or lower as at present. To some critics, such a wide area transmission layer is not novel; they point out that the technology has little difference from that used for regional and national power transmission networks. Proponents respond that beyond
777-474: The US, key decision makers such as Steven Chu favor a national long distance DC grid system. There are industry advocates of high voltage alternating current (HVAC). Although flexible alternating current transmission systems ( FACTS ) have drawbacks for long distances, American Electric Power has championed a 765 kV super grid they call I-765 that would provide 400 GW of extra transmission capacity required for producing 20% of US energy from wind farms based in
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#1732801014753814-705: The converter stations in the intervening decades, the system now has a capacity of 3,100 MW and is known as the Pacific DC Intertie . The concept of a "super grid" dates back to the 1960s and was used to describe the emerging unification of the Great Britain grid. In the code that governs the British Grid, the Grid Code, the Supergrid is currently defined – and has been since this code was first written, in 1990 – as referring to those parts of
851-440: The idea of a national transmission grid in order to promote United States energy independence . Al Gore advocates the Unified Smart Grid which has comprehensive super grid capabilities. Gore and other advocates such as James E. Hansen believe super grids are essential for the eventual complete replacement of the greenhouse gas producing fossil fuel use that feeds global warming . Large amounts of land would be required for
888-454: The installation of renewable energy , currently in planning stage. One study for a European super grid estimates that as much as 750 GW of extra transmission capacity would be required – capacity that would be accommodated in increments of 5 GW with HVDC lines. A 2008 proposal by Transcanada priced a 1,600-km, 3 GW HVDC line at US$ 3 billion; it would require a corridor 60 meters wide. In India, an August 2007 6 GW, 1,825-km proposal
925-546: The local smart grid into a virtual power plant , or a city's fleet of one million electric vehicles could be used to trim peaks in transmission supply by integrating them to the smart grid using vehicle to grid technology. One advantage of such a geographically dispersed and dynamically balanced system is that the need for baseload generation is significantly reduced since intermittency of some sources such as ocean , solar , and wind can be smoothed. A series of detailed modeling studies by Dr. Gregor Czisch, which looked at
962-544: The local smart grids into a single wide-area super grid. This is similar to how the Internet bound together multiple small networks into a single ubiquitous network. Wide area transmission can be viewed as a horizontal extension of the smart grid. In a paradigm shift, the distinction between transmission and distribution blurs with the integration as energy flow becomes bidirectional. For example, distribution grids in rural areas might generate more energy than they use, turning
999-402: The midwest. (See figure above). Advocates of HVAC systems point out that HVDC systems are oriented for point to point bulk transmission and multiple connections to them would require expensive complex communication and control equipment as opposed to the simple step up transformers needed if AC lines were used. Currently, there is only one multipoint long distance HVDC transmission system. In
1036-498: The more distant future, the voltage loss of current methods could be avoided using experimental superconducting " SuperGrid " technology where the transmission cable is cooled by a liquid hydrogen pipeline which is also used to move energy nationwide. The energy losses for creating, containing, and re-cooling liquid hydrogen need to be accounted for. Coordination and control of the network would use smart grid technologies such as phasor measurement units to rapidly detect imbalances in
1073-410: The network caused by fluctuating renewable energy sources and potentially respond instantaneously with programmed automatic protection schemes to reroute, reduce load, or reduce generation in response to network disturbances. China supports the idea of a global, intercontinental super grid. For a super grid in the US, a study estimated an 80% reduction of greenhouse gas emissions in combination with
1110-461: The path of the planned construction. Energy producers are interested in whether the super grid employs HVDC technology, or uses AC, because the cost of connection to an HVDC line is generally greater than that if the AC is used. The Pickens plan favors 765 kV AC transmission, which is considered to be less efficient for long-distance transmission. In the 1960s, private California power companies opposed
1147-563: The pathways for a super grid in that country. In the EU, permits for new overhead lines can easily reach 10 years. In some cases, this has made underground cable more expedient. Since land required can be one fifth than that for overhead and the permit process can be significantly faster, underground cable can be more attractive despite its weaknesses of being more expensive, lower capacity, shorter-lived, and suffering significantly longer downtimes. Just as superhighways change valuations of land due to
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1184-399: The practical operation and promised benefits of such transcontinental mega grids. In current usage, "super grid" has two senses – one of being a superstructure layer overlaid or super-imposed upon existing regional transmission grid or grids, and the second of having some set of superior abilities exceeding those of even the most advanced grids. In the "overlay", or "superstructure" meaning,
1221-448: The proposed unification of the synchronous European grid UCTE and the IPS/UPS system of the CIS , such a mega grid is no different from typical wide area synchronous transmission systems where electricity takes an ad hoc transit route directly through local utility transmission lines or HVDC lines as required. Studies for such continental sized systems report there are scaling problems as
1258-433: The proximity to the ability to transport valuable commodities, businesses are strongly motivated to influence the siting of a super grid to their benefit. The cost of alternative power is the delivered price of electricity, and if the production of electricity from North Dakota wind or Arizona solar is to be competitive, the distance of the connection from the wind farm to the interstate transmission grid must not be great. This
1295-492: The qualitative smart grid features that allow instantaneous coordination and balancing of intermittent power sources across international boundaries, the quantitative comprehensiveness has a quality all its own. The claim is made that super grids open up markets. In the same way that freeways revolutionized interstate transport and the Internet revolutionized online commerce when comprehensive high-capacity networks were built, it
1332-537: The study showed that no new storage would be required; existing hydro would be sufficient. The total cost, including for new combustion plant, fuelled by biomass, the cost of the interconnections, the inefficiency of starting and stopping the combustion plant, all indicated a power price at the same as Germany was paying in 2005. A number of other specific schemes have been proposed to create super grids of varying extent within Europe . These include: On 24 November 2011,
1369-435: Was priced at $ 790 million and would require a 69 meter wide right of way. With 750 GW of new HVDC transmission capacity required for a European super grid, the land and money needed for new transmission lines would be considerable. In Europe, the energy security implication of a super grid has been discussed as a way in part to prevent Russian energy hegemony . In the US, advocates such as T. Boone Pickens have promoted
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