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Superconductivity UK Dr. Philip Sargent, Diboride Conductors Ltd. Cables, SMES, Synchronous...
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Transcript of Superconductivity UK Dr. Philip Sargent, Diboride Conductors Ltd. Cables, SMES, Synchronous...
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Superconductivity UK
Dr. Philip Sargent, Diboride Conductors Ltd.
Cables, SMES, Synchronous Condensers and grid stability
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Large-scale Innovation
R&D
Demonstration
Pre-commercial
Supportedcommercial
Commercial
Technologypush
Marketpull
UK Innovation Systems for New and Renewable Energy Technologies, June 2003. ICCEPT
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1967 Superconducting Cable
>100 GW dc, >1000 km !
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National Climate Change Technology Initiative (NCCTI – “Necktie”)
“Absolutely Zero GHG Emissions by 2050”George W. Bush
P.M. Grant, The Industrial Physicist, Fall Issue, 2001
SupermarketSchool Home
Family Car
DNA-to-order.com
Nuclearplant
H2
H2
MgB2
SuperCity Vision
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Cables
SiemensNKT Denmark
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Cable Projects
• Long Island: 2004, 600m 138kV $30m• Benefit is 3x duct capacity (AMSC)
• Albany/Hudson 450m $26m (Sumitomo/IGC/BOC)• Columbus 300m 2005 (Ultera/Southwire)• Tokyo 100m, 114 MVA (TEPCO/Sumitomo)• Detroit 120m 24 kV, 100 MVA warm dielectric
(Pirelli, AMSC) – vacuum leak.• Copenhagen 100m 36kV, 1.8kA• Southwire 30m 12.4kV 1.25kA, 10,000 hours
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Cable Losses
• AC Losses (hysteresis)
• I2R losses in joints
• Dielectric losses
• Thermal conduction losses (side)
• Thermal conduction losses (terminations)
• Pumping losses (friction of LN)
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Cold or Warm Dielectric
Low thermal lossCheaper to make
Higher thermal lossNo stray field
www.supercables.com
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Warm Dielectric
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Coaxial or Trifoil
www.supercables.com
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RAND HTS cable study 2002
•Technical feasibility and tradeoffs only!
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Pirelli HTS Cable Study 2002
Mansoldo, Jan.2002, PES-IEEE NY.
• “The most attractive scenarios are those where the higher power transfer density can be exploited fully and cannot be obtained with conventional technology. In these cases congestions can be reduced and system reliability improved.”
“Modifying cooling temperature with refrigeration, transfer capability can be increased 30-50%”
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Cables Summary
• Losses are roughly equal: thermal, AC hysteresis, dielectric
• Primary benefits are for reusing scarce duct space in retrofit in inner cities (10s of km/y)
• Long distance and new AC installations are infeasibly expensive due to LN cryogenics, not materials cost – 20x overhead line.
• HV DC cables are another matter…
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Conectus Roadmap 4K – 77K
pre-commercial: R&D, prototypes, field-testsemerging marketmature market
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ISIS 2002
$38b by 2020
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SuperconductivityPower Markets (ISIS)
2003
DC
Power
2015
2010
2020
$20b/y
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Generators
• 1970s GE 20MW NbTi in liquid helium• 1990s Japanese 70MW, also NbTi
• 4K liquid helium cryogenics “difficult”
• Economics attractive: size, efficiency• Same technology as motors, but BIG• Therefore, follow motor market.• GE/AEP/DOE 100MW project due 2005
(1.8MW generator tested 23 July 2003)
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Generator Design
• 1/2 length• 2/3 diameter• 98.6% efficient• cryogenics energy
cost is only 2% of the total losses
• 50 MW 3600rpm(Jan.2002)
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Synchronous Condenser
Conventional stator
HTS rotor
10 MVAR, 13.8 kV at 60 Hertz
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Uses Motor Technology
5MW USNavy motor
36MW motor design
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Cross section: air core
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5MW rotor
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Benefits
• Transient dynamic voltage stability (leading and lagging VARs)
• Voltage support and stability improvement• HTS rotor increases the over-excitation and under-excitation
output limits to its full-rating without loss of critical clearing time following a transient fault. Increases capacity: reduces losses
• Power factor correction in steady state operation• Stable operation in leading or lagging mode• Less rotor maintenance: no thermal fatigue so used for
peaking as well as base load• Minimizes operating power• Minimizes harmonic content
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Delivered to TVA 8 days ago
• 19 Nov. 2003 AMSC “SuperVAR” delivered at the Hoeganaes steel mill in Gallatin, Tennessee.
• Compensates for the reactive power drawn by the steel mill’s arc furnace
• North American Electricity Reliability Council (NERC) cited the need to ensure appropriate levels of reactive power as the highest priority.
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Liquid Neon motors
• AMSC 3.7MW• Siemens motor
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Timeline
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Cryogenics
• Liquid neon for 24-27K operation: useful for high field BSCCO.
• A synchronous machine has effectively a “DC rotor”,
• So AC losses are small in the rotor ,• So gaseous helium has adequate heat
transfer capability at 35 – 40K.• A superconducting stator is not imagined
by BSCCO manufacturers, but may be OK with Magnesium Diboride.
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Flywheel Energy Systems
• Superconducting bearings increase the useful storage time from minutes to an hour or so.
• Good for power quality control or transmission support, not load-levelling or peak shaving
• Not as high a power rating as SMES, but more energy storage
• Pirouette/BNFL in the UK, Boeing in USA
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AMSC’s SMES
• 3 MW instantaneous real power from the superconductor magnet NbTi/He
• 8 MVAR of reactive power from the IGBT inverters.
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“UPS”
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SMES for stability
• 115kV Northern Wisconsin to fix a network instability problem
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IGBT cooling!
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Fault Current Limiters
• FCLs have many applications
• Save capital costs on other equipment
• Many different designs (resistive, inductive)
Mårten Sjöström and Diego Politano, ASC 2000
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ORNL Model June 2003
Assumed market growth rates
Motors >370kW
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Mulholland ORNL Model
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Efficiencies
• Transformers are attractive because of their efficiency and safety (no oil).
• Generators are attractive because of their efficiency.
• But much higher value is gained by reducing capital expenditure by using Synchronous Condensers, Dynamic SMES and Fault Current Limiters.
• Therefore, efficiency in these new devices is not a prime concern.
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Thankyou