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Continual power system
A continual power system is a large-scale system for reliably supplying large amounts of uninterrupted power. Examples of a continual power system include uninterruptible power supply and an emergency power system. The need for a continual power system has risen over the last few decades because energy resources in the market are getting less and at a higher price as the industrial revolution progresses. This is due to several reasons such as the growth in global economy, depletion of energy resources, and the environmental impacts of energy production.〔A. Ganjehkaviri, M.N. Mohd Jaafar (2015, January) ("Optimization and the effect of steam turbine outlet quality on the output power of a combined cycle power plant." ) "Energy Conversion and Management" 89(1), 231–243〕
The continual power system is one of many power systems that are being funded and used at this time because there is still no standard that exists that clearly defines the roles and responsibilities of the energy provider. As the modern world continues to progress, high-tech users are expected to demand a power supply that is high in security, quality, reliability, and availability. For businesses, reliability and quality is important because they rely on electrical services to provide lighting, general power, computer hardware and communications hardware. The key in reliable power systems is to avoid power disturbances, which are concerned with deviations of the voltage or current from the ideal single-frequency sine wave of constant amplitude and frequency 〔Moreno-Munoz, A., Juan José González De La Rosa, Flores-Arias, J., Bellido-Outerino, F., & Gil-De-Castro, A. (2011, April) (“Energy efficiency criteria in uninterruptible power supply." ) ''Applied Energy'' 88(4), 1312-1321〕
The desire for continuous and reliable power supply is not just within the business community. On a 2011 study done on Flemish households, the researchers found that only a relatively small share of them would be willing to switch to a lower reliability level if they would be compensated by a not too large bill discount.〔Pepermans, G. (2011, December) ("The value of continuous power supply for Flemish households. Energy Policy". ) "Energy Policy" 39(12), 7853-7864〕 Computer power supplies have the AC/DC converter in which energy is lost when converted. By relying on a highly efficient dc only converter, instead of AC/DC, to store energy directly from a fuel cell the efficiency can be increased by up to 50%
==Flywheel==
An example of a continual power system is the flywheel-based type, which are common on colocation sites. These consist of an electric motor, a flywheel, a generator and a diesel engine. In normal operation, the electric motor, supplied from the grid, turns the flywheel which in turn turns the generator. In the event of power failure, the flywheel keeps the generator turning while the diesel engine starts. The flywheel is an effective way for governing the FESS for wind power smoothing. It is the range of 89-93% of mean state of charge which means as the blades on the flywheel turn, energy is being stored up between 89-93% of the given output. The idea is to use energy as optimally as possible by means of storing converted through the movement of the flywheel. The electric machine operates the flywheel and as it turns energy is stored.〔Díaz-González, Francisco, Andreas Sumper, Oriol Gomis-Bellmunt, and Fernando D. Bianch (October, 2013) ("Energy management of flywheel-based energy storage device for wind power smoothing". ) "Applied Energy" 110, 207-219〕
抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』
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