ILC Main Linac Superconducting Quadrupole V. Kashikhin for Superconducting Magnet Team.
1 Superconducting Materials Group 9: Kyle Koliba Jeremy Katusak.
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Transcript of 1 Superconducting Materials Group 9: Kyle Koliba Jeremy Katusak.
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1
Superconducting Materials
Group 9:Kyle Koliba
Jeremy Katusak
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2Overview
• Introduction• Synthesis• Applications• Challenges• Conclusion• Recommendations
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3Introduction
• Superconductors• History• Advancements
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4Superconductors
• When below specific temperatures:• Zero electrical resistance• Expulsion of magnetic fields
http://upload.wikimedia.org/wikipedia/commons/thumb/3/3c/Stickstoff_gek%C3%BChlter_Supraleiter_schwebt_%C3%BCber_Dauermagneten_2009-06-21.jpg/800px-Stickstoff_gek%C3%BChlter_Supraleiter_schwebt_%C3%BCber_Dauermagneten_2009-06-21.jpg
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5Introduction
• Superconductors• History• Advancements
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6History
1911: Superconductivity observed in mercury
1933: Superconducting material repels magnetic field. “Meissner effect”
1973: Nobel Prize awarded for confirming that electrical current flows between two superconducting materials
1986: Ceramic compound created that is capable of superconducting at 30 K. Liquid nitrogen can now be used as a substitute for liquid helium.
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7Introduction
• History• Advancements
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8History
http://library.thinkquest.org/08aug/02316/index_files/image614.gif
High temp
Low temp
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9Synthesis
• The original synthesis of YBa2Cu3O7 heated a blend of Barium-, Yttrium-, and Copper-carbonate at temperatures of over 1000K in the presence of oxygen.
4 BaCO3 + Y2(CO3)3 + 6 CuCO3 + 0.5 O2 → 2 YBa2Cu3O7 + 13 CO2
http://tfy.tkk.fi/aes/AES/projects/prlaser/ybco.jpg
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10Synthesis
• New methods for the production of YBCO: • Chemical vapor
deposition• Microemulsion• Sol-gel
http://www.fusione.enea.it/LABORATORIES/SuperCond/depfilm.html.en
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11Applications
• Current• Future
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12Applications
• Electromagnets• MRI• NMR
http://www.magnet.fsu.edu/education/tutorials/magnetacademy/mri/images/mri-scanner.jpg
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13Applications
• Electromagnets• Transport
http://www.magnet.fsu.edu/education/tutorials/magnetacademy/superconductivity101/images/superconductivity-maglevcut.jpg
http://www.schillerinstitute.org/graphics/photos/eco_strategic/maglev.jpg
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14Applications
• SQUIDs (superconducting quantum interference devices) for detection of mines
http://www.learner.org/courses/physics/visual/img_lrg/squid.jpg
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15Applications
• Future:• Power storage• Smart grid
http://www.hitachi.com/environment/showcase/solution/energy/images/img_smartgrid/smartgrid_02.jpg
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16Challenges
• Cooling• Materials• AC vs. DC
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17Cooling
Vacuum expensive to maintain.
Requires liquid nitrogen flow to provide cooling through length of the cable.
http://2.bp.blogspot.com/_VyTCyizqrHs/Sz1X2fOF_OI/AAAAAAAAGG8/sCjzHR5WEcg/s400/supercon1.jpg
Insulation required for miles of cable if implemented.
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18Challenges
• Cooling• Materials• AC vs. DC
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19Materials
High-Performance YBCO-Coated Superconductor WiresSee reference
• Current materials are expensive!
• Prices of precious metals continues to increase.
http://silverprice.org/silver-price-history.html
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20Challenges
• Cooling• Materials• AC vs. DC
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21AC vs. DC
http://cleangreenenergyzone.com/wp-content/uploads/2011/06/dc-to-ac-inverter.jpg
• Sensitivity to moving magnetic fields
• Difficult to develop applications that implement alternating current as opposed to direct current
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22Conclusion
• The unique properties of superconducting materials such as YBCO allow for numerous innovations.
• If production and operation costs can be significantly reduced, superconductors have the potential to replace traditional electronic circuits entirely.
http://web.mit.edu/jbelcher/www/lev.html
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23Recommendations
• Invest more research towards increasing the operating temperature of superconducting materials.
• Find more practical ways of implementing superconductors into wire to make it competitive with traditional power lines.
http://folk.uio.no/kristorh/index-filer/PAHansen_KRHaug_YBCO1.jpg
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24References
• Li, F., and C. Vipulanandan. "Production and characterization of YBCO nanoparticles." Applied Superconductivity, IEEE Transactions on 13.2 (2003): 3196-3198.
• Paranthaman, M. Parans, and Teruo Izumi. "High-performance YBCO-coated superconductor wires." MRS bulletin 29.08 (2004): 533-541.
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25THANK YOU
Questions?