NEUTRON FLUX SPECTRUM

Reactor Theory (Neutron Characteristics) DOE-HDBK-1019/1-93 NEUTRON FLUX SPECTRUM Rev. 0 Page 33 NP-02 Figure 2 Prompt Fission Neutron Energy Spectrum for Thermal Fission of Uranium-235 NEUTRON FLUX SPECTRUM The number of neutrons that exist at a given energy level varies. A plot of either the fraction of neutrons or the neutron flux at a given energy versus the energy level is called a neutron energy spectrum. The neutron energy spectrum varies widely for different types of reactors. EO 4.1 STATE the average energy at which prompt neutrons are produced. EO 4.2 DESCRIBE the neutron energy spectrum in the following reactors: a. Fast reactor b. Thermal reactor EO 4.3 EXPLAIN the reason for the particular shape of the fast, intermediate, and slow energy regions of the neutron flux spectrum for a thermal reactor. Prompt Neutron Energies The neutrons produced by fission are high energy neutrons, and almost all fission neutrons have energies between 0.1 MeV and 10 MeV. The neutron energy distribution, or spectrum, may best be described by plotting the fraction of neutrons per MeV as a function of neutron energy, as shown in Figure 2. From this figure it can be seen that the most probable neutron energy is about 0.7 MeV. Also, from this data it can be shown that the average energy of fission neutrons is about 2 MeV. Figure 2 is the neutron energy spectrum for thermal fission in uranium-235. The values will vary slightly for other nuclides.