Micro superconducting magnetic energy storage (SMES) system for protection of critical industrial and military loads

A 6 MJ, 750 kVA micro-SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power conditioning. Life-cycle costs have been minimized through the use of energy efficient refrigeration units. Maintenance is simplified through t...

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Published in:	IEEE transactions on magnetics Vol. 32; no. 4; pp. 2276 - 2279
Main Authors:	Kalafala, A.K., Bascunan, J., Bell, D.D., Blecher, L., Murray, F.S., Parizh, M.B., Sampson, M.W., Wilcox, R.E.
Format:	Journal Article
Language:	English
Published:	IEEE 01-07-1996
Subjects:	Costs Energy efficiency Power conditioning Power quality Power system protection Refrigeration Remote monitoring Samarium Superconducting magnetic energy storage Uninterruptible power systems
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Abstract	A 6 MJ, 750 kVA micro-SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power conditioning. Life-cycle costs have been minimized through the use of energy efficient refrigeration units. Maintenance is simplified through the use of line replaceable units. Availability is maximized through a design approach which allows the magnet to continue protecting the load even in the case of refrigeration degradation or total failure. Reliability is maximized by the use of proven commercial-off-the-shelf items. The system provides ride-through capability for /spl sim/9 seconds at a power level of 454 kW. The system comprises a niobium titanium superconducting magnet, permanent conduction cooled hybrid current leads, a low loss cryostat, a closed-loop refrigeration subsystem, an off-the-shelf uninterruptible power supply (UPS), a magnet interface unit to connect the magnet to the UPS and an off-the-shelf monitoring unit providing both local and remote monitoring capability of system parameters.
AbstractList	A 6 MJ, 750 kVA micro-SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power conditioning. Life-cycle costs have been minimized through the use of energy efficient refrigeration units. Maintenance is simplified through the use of line replaceable units. Availability is maximized through a design approach which allows the magnet to continue protecting the load even in the case of refrigeration degradation or total failure. Reliability is maximized by the use of proven commercial-off-the-shelf items. The system provides ride-through capability for /spl sim/9 seconds at a power level of 454 kW. The system comprises a niobium titanium superconducting magnet, permanent conduction cooled hybrid current leads, a low loss cryostat, a closed-loop refrigeration subsystem, an off-the-shelf uninterruptible power supply (UPS), a magnet interface unit to connect the magnet to the UPS and an off-the-shelf monitoring unit providing both local and remote monitoring capability of system parameters. A 6 MJ, 750 kVA micro-SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power conditioning. Life-cycle costs have been minimized through the use of energy efficient refrigeration units. Maintenance is simplified through the use of line replaceable units. Availability is maximized through a design approach which allows the magnet to continue protecting the load even in the case of refrigeration degradation or total failure. Reliability is maximized by the use of proven commercial-off-the-shelf items. The system provides ride-through capability for ~9 seconds at a power level of 454 kW. The system comprises a niobium titanium superconducting magnet, permanent conduction cooled hybrid current leads, a low loss cryostat, a closed-loop refrigeration subsystem, an off-the-shelf uninterruptible power supply (UPS), a magnet interface unit to connect the magnet to the UPS and an off-the-shelf monitoring unit providing both local and remote monitoring capability of system parameters A 6 MJ, 750 kVA Micro SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power conditioning. Life-cycle costs have been minimized through the use of energy efficient refrigeration units. Maintenance is simplified through the use of Line Replaceable Units (LRU). Availability is maximized through a design approach which allows the magnet to continue protecting the load even in the case of refrigeration degradation or total failure. Reliability is maximized by the use of proven commercial-off-the-shelf (COTS) items. The system provides ride-through capability for approximately 9 seconds at a power level of 454 kW. The system comprises a niobium titanium superconducting magnet, permanent conduction cooled hybrid current leads, a low loss cryostat, a closed-loop refrigeration subsystem, an off-the-shelf uninterruptible power supply (UPS), a magnet interface unit to connect the magnet to the UPS, and an off-the-shelf monitoring unit providing both local and remote monitoring capability of system parameters.
Author	Wilcox, R.E. Blecher, L. Parizh, M.B. Kalafala, A.K. Bascunan, J. Murray, F.S. Sampson, M.W. Bell, D.D.
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Snippet	A 6 MJ, 750 kVA micro-SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power... A 6 MJ, 750 kVA Micro SMES system has been designed to protect critical loads against voltage sags and interruptions, as well as to provide continuous power...
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SubjectTerms	Costs Energy efficiency Power conditioning Power quality Power system protection Refrigeration Remote monitoring Samarium Superconducting magnetic energy storage Uninterruptible power systems
Title	Micro superconducting magnetic energy storage (SMES) system for protection of critical industrial and military loads
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