The AECL Study for an Intense Neutron Generator: (technical Details) |
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Page 7
... heat in the target or carried out of the target as nucleon kinetic energy or electromagnetic radiation . The quantities of primary concern in neutron source design are the neutron yield per incident proton and the heat deposited in the ...
... heat in the target or carried out of the target as nucleon kinetic energy or electromagnetic radiation . The quantities of primary concern in neutron source design are the neutron yield per incident proton and the heat deposited in the ...
Page 59
... heat recovery system therefore is $ 1 , 170 , 000 . The value of generated electricity can be taken as $ 376,000 / year . Therefore the heat recovery system will be paid off after : 1 , 100 , 000 . 376,000 = approximately 3 years . 1.10 ...
... heat recovery system therefore is $ 1 , 170 , 000 . The value of generated electricity can be taken as $ 376,000 / year . Therefore the heat recovery system will be paid off after : 1 , 100 , 000 . 376,000 = approximately 3 years . 1.10 ...
Page 4
... heat source is 232U . It has about the same half life as 238 Pu ( 74 years ) , but because it heads a family of shorter - lived isotopes , emitting a total of 6 alphas and 2 betas , its heat output is 10 times as much as that of 238 Pu ...
... heat source is 232U . It has about the same half life as 238 Pu ( 74 years ) , but because it heads a family of shorter - lived isotopes , emitting a total of 6 alphas and 2 betas , its heat output is 10 times as much as that of 238 Pu ...
Common terms and phrases
accelerator activity amplifier beam current beam dump beam splitter beam transport system beam tube beryllium calculations cavity walls circuit cobalt COIL components concrete cooling cost cross-section Cyclotron D₂O deflection deuterium diameter dump effect electron estimated fast neutrons fission flight path frequency gradient heat exchanger high energy increase injector inner irradiation length linac liquid metal load loop machine magnetic field material meson moderator tank modes multipactoring muons neutron flux nuclear nucleons operation orbit output parameters particles Pb-Bi phase pions piping pole tip problems produced proton beam pulse pump radiation radius reactor reference design resonance RF cavities scattering sector shielding spallation stage steel structure surface Table target tube temperature thermal neutron thermal neutron facility thick tunnel vacuum vertical voltage width y-ray yield yoke Zircaloy zirconium