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Nuclear Fission 235U + n  93Rb + 141Cs + 2n Not unique.

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Presentation on theme: "Nuclear Fission 235U + n  93Rb + 141Cs + 2n Not unique."— Presentation transcript:

1 Nuclear Fission 235U + n  93Rb + 141Cs + 2n Not unique.
Low-energy fission processes. Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

2 Nuclear Fission Z1 + Z2 = 92 Z1  37, Z2  55 A1  95, A2  140
Large neutron excess Most stable: Z=45 Z=58 Prompt neutrons within s. Number  depends on nature of fragments and on incident neutron energy. The average number is characteristic of the process. Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

3 Nuclear Fission The average number of neutrons is different, but the distribution is Gaussian. Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

4 Why only left side of the mass parabola?
Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

5 In general,  decay favors high energy.
Higher than Sn? Delayed neutrons ~ 1 delayed neutron per 100 fissions, but essential for control of the reactor. In general,  decay favors high energy. Waste. Poison. Follow -decay and find the most long-lived isotope (waste) in this case. Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

6 Nuclear Fission Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

7 Nuclear Fission 1/v 235U thermal cross sections fission  584 b.
Fast neutrons should be moderated. 235U thermal cross sections fission  584 b. scattering  9 b. radiative capture  97 b. Fission Barriers Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

8 Nuclear Fission Fissile Fissionable
Q for 235U + n  236U is MeV. Table 13.1 in Krane: Activation energy EA for 236U  6.2 MeV (Liquid drop + shell)  235U can be fissioned with zero-energy neutrons. Q for 238U + n  239U is 4.??? MeV. EA for 239U  6.6 MeV  MeV neutrons are needed. Pairing term:  = ??? (Fig in Krane). What about 232Pa and 231Pa? (odd Z). Odd-N nuclei have in general much larger thermal fission cross sections than even-N nuclei (Table 13.1 in Krane). Fissionable Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

9 Nuclear Fission Why not use it? f,Th 584 2.7x10-6 700 0.019 b
Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh).

10 Nuclear Reactors, BAU, 1st Semester, 2007-2008 (Saed Dababneh).
Nuclear Fission Thermal neutron fission of 235U forms compound nucleus that splits up in more than 40 different ways, yielding over 80 primary fission fragments (products). 23592U + 10n ► 9037Rb Cs n 23592U + 10n ► 8735Br La n 23592U + 10n ► 7230Zn Sm + 410n ! The fission yield is defined as the proportion (percentage) of the total nuclear fissions that form products of a given mass number. Revisit thermal and look for fast. Nuclear Reactors, BAU, 1st Semester, (Saed Dababneh). Nuclear Reactor Theory, JU, Second Semester, (Saed Dababneh). 10

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