Storage of Spent Nuclear Fuel at Pilgrim Nuclear Power Station
Transmutation of spent nuclear fuel
description
Transcript of Transmutation of spent nuclear fuel
Transmutation of spent nuclear fuel
Jaroslav Šoltés1
Jiří Skalička2
1 – Czech Technical University, Prague2 – Brno University of Technology3 – Joint Institute of Nuclear Research, Dubna
Supervisor:Lukáš Závorka3
Main goals of transmutation
• Burnup of minor actinides in spent nuclear fuel to reduce its radioactivity (Am, Cm)
• Converting fertile isotopes to fissile isotopes (232Th, 238U)
Accelarator driven systems
• High energy and intensive neutron source is needed
• They cannot be obtained via standard thermal or fast fission in a reactor
• Spallation reactions are required which can be achieved only by using an accelerator driven system (ADS)
Accelerator driven systems
Neutron reactions in the ADS core
• Fission of heavy nuclei (Am, Cm, U, Th, Pu)
• Neutron capture on Th, U and fissile isotopes creation
• (n,xn) on Th creating additional neutrons
QUINTA experiment
HPGe γ - spectrometer Ortec
Measurements carried out
• Time of irradiation: 16 h
• Number of measurements: 8
• Measured 2 h, 3 h, 11 h, 28 h, 36 h, 50 h, 45 d and 105 d after irradiation
Samples evaluation
• Identification of dominant gamma peaks in spectra
• Energy calibration• Non-linearity correction• Background correction• Single escape and double escape peak
correction• Effectivity calibration correction• Isotopes identification
Identified isotopes• Fission products:
85mKr, 85mSr, 85mY, 87Kr, 88Kr, 88Rb, 90mY, 91Sr, 92Sr, 92Y, 93Y, 95Nb, 95mTc, 96Nb, 97Zr, 99Mo, 103Ru, 105Ru, 105Rh, 123I, 127Cs, 127Sb, 128Sb, 131Ba, 131I, 132Cs, 132I, 132Te, 133I, 134I, 135I, 135Xe, 138Cs, 139Ba, 139Ce, 140Ba, 140La, 141Ce, 142La, 143Ce
• Decay products of (n,xn) reactions isotopes:210Po, 210mBi, 213Bi, 214Pb, 219Rn, 223Ra, 224Ac, 226Ac, 226Ra, 227Ac, 230Th
• Activation product of 232Th: 233Pa
Detected nuclei count
Nuclei count:
232Th-11: 3,52*1020
232Th-12: 3,64*1020
233Pa-11: 7,72*108
233Pa-12: 4,46*108
Conclusion
• Detected fission products indicate fast neutron fission of the target 232Th
• Detected isotopes of 233Pa which beta-decays into 233U show effective fissile fuel breeding possibilities ADS
• (n,xn) reactions are important additional source to neutron balance
• 232Th is therefore ideal candidate for the ADS breeding zone
Thank you for your attention
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