randy tremper and dean peterson los alamos national laboratory los alamos, new mexico...
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Randy Tremper and Dean Peterson
Los Alamos National Laboratory
Los Alamos, New Mexico
Superconductivity Technology CenterOverview
Develop Energy Efficient Superconductor Technologies
in Collaboration with American Industry and Universities
HTS Benefits are Widespread
Nation Facing Energy Crisis• US Economy Dependent on Energy
– Loss of Industries and Jobs • Projected Shortages in Oil & Natural Gas
– Exponential price increases in next 20 yrs– Increasing world wide demand
• Global warming related to carbon release• Aging Electric Power Transmission Grid• Need to Increase Efficiency & Capabilities
Northeast Electric Grid Blackout
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High-Temperature Superconductivity (HTS) is Pivotal to US Energy Sustainability
10% of electricity generated in the US each year (300 million kilowatt hours) is lost due to resistance of copper and aluminum wire
Superconductors, which have nearly zero resistance, can make most of that lost energy available with no additional fossil fuel use or generating capacity
The energy lost to electrical system inefficiencies could supply the combined energy needs of California, Oregon, Arizona, and New Mexico
Superconducting Magnetic Energy Storage (SMES) systems will improve infrastructure reliability by protecting against grid fluctuations
Superconducting Magnetic Energy Storage (SMES) systems will improve infrastructure reliability by protecting against grid fluctuations
Accelerated HTS Technology Development will Impact the US Significantly
Save $16B annually in US energy costs $11B in transmission losses
Rejuvenate the US power equipment industry $200B annual sales worldwide of HTS power equipment by
2020 Strengthen the reliability of the US electricity infrastructure Create 150,000+ new high-technology domestic jobs Improve medical, communications, and electronic equipment Improve systems for national security Eliminate hazardous materials from electrical systems
Superpowering the Electric Grid
• High Temperature Superconductors (HTS)– no electrical resistance (cooled with liq N2)– 1000 times current carrying capacity of copper– more powerful, efficient, smaller, lighter– Increased Energy Infrastructure Security
Compliments of ASC
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DOE Electricity & Energy Assurance HTS Program Mission
“Work in partnership with industry to develop HTS wire and perform pre-commercial R&D activities required for U.S. companies to commercialize HTS electric power applications.”
Basic Research Applied Research Development Manufacture
UNIVERSITIESCompanies
NATIONALLABORATORIES
National laboratories have a critical role inNational laboratories have a critical role intransferring promising new discoveries to industrytransferring promising new discoveries to industry
National Laboratories:• bridge gap between universities and companies• evaluate new concepts for value to national program• turn novel ideas into practical reality• overcome barriers limiting development
Power Applications
HTS Wires
IBAD MgO based coated conductor 5 thin oxide buffer layers with different functions
Substrate ~ 80nm alumina
Superconductor Stabilizer
~ 10nm IBAD MgO
~ 30nm STO~ 20-30nm Homo-epi MgO
~ 7nm yttria
Alumina --- barrier layer to prevent diffusion of metal element into superconductor
Yttria – seed layer to provide good nucleation surface for IBAD MgO
IBAD MgO – template layer introduce biaxial texture
Homo-epitaxial MgO --- buffer layer to improve biaxial texture
STO --- cap layer, to provide lattice match between MgO and YBCO and good chemical compatibility.
Flexible Superconducting Tape
2003 R&D100 Winner
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Critical current for YBCO/IBAD MgO 1.2 m tape
0
20
40
60
80
100
0
50
100
150
200
250
300
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400
0 20 40 60 80
I c (A
) in
0.6
T
Ic (A) self field
Position (cm)
75 K, 3 microns
The Accelerated Coated Conductor Initiative has . . .
• Provided US industry with access to state-of-the-art analytical tools to characterize all continuous processing steps for HTS conductors
• Enabled electric power applications through availability of second generation HTS conductors
• Enabled joint technology development (through CRADAs) of coated conductor processing science and technology
• Engaged the best and brightest scientists and engineers with processing and on-line diagnostics expertise
Accelerated Coated Conductor Initiative
Tape Polish IBAD Film
Tape Characterization HTS Film
Research Park
Power Applications(HTS Motors, Cables, etc.)
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HTS Power Applications Partners
HTS Tape Development: Superpower,AMSC,Oxford,MetOx
Motors: Reliance
Transmission Cables:
Fault Current Limiter:
Generator:
•MRI: Oxford
Magnetic Separators: Dupont
Utilities
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Exciting Opportunities for Partnerships• Underpinning Core Research with Universities
• Accelerated Coated Conductor Development with Industry
• Superconducting Component Prototypes (Coils, Cables, Electronics)
• LANL Power Delivery Research Initiative
– New Materials/Concepts in Novel Power Devices
National HTS Electric GridSuperconducting TapesCost<$10/KA-meter
=>
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