Other Neutron Poisons

DOE-HDBK-1019/2-93 SAMARIUM AND OTHER FISSION PRODUCT POISONS Reactor Theory (Nuclear Parameters) The xenon-135 and samarium-149 mechanisms are dependent on their very large thermal neutron Figure 7 Behavior of Samarium-149 in a Typical Light Water Reactor cross sections and only affect thermal reactor systems. In fast reactors, neither these nor any other fission products have a major poisoning influence. Other Neutron Poisons There are numerous other fission products that, as a result of their concentration and thermal neutron absorption cross section, have a poisoning effect on reactor operation. Individually, they are of little consequence, but "lumped" together they have a significant impact. These are often characterized as "lumped fission product poisons" and accumulate at an average rate of 50 barns per fission event in the reactor. In addition to fission product poisons, other materials in the reactor decay to materials that act as neutron poisons. An example of this is the decay of tritium to helium-3. Since tritium has a half-life of 12.3 years, normally this decay does not significantly affect reactor operations because the rate of decay of tritium is so slow. However, if tritium is produced in a reactor and then allowed to remain in the reactor during a prolonged shutdown of several months, a NP-03 Rev. 0 Page 46