Samarium-149 Response to Reactor Shutdown

DOE-HDBK-1019/2-93 Reactor Theory (Nuclear Parameters) SAMARIUM AND OTHER FISSION PRODUCT POISONS The fission yield of samarium-149, however, is nearly zero; therefore, the equation becomes the following. dN_Sm dt lPm NPm NSm s Sm a f Solving this equation for the equilibrium concentration of samarium-149 and substituting gPmS f f uel f / lPm for NPm(eq) yields the following. N_Sm(eq) g Pm S fuel f s Sm a This expression for equilibrium samarium-149 concentration during reactor operation illustrates that equilibrium samarium-149 concentration is independent of neutron flux and power level. The samarium concentration will undergo a transient following a power level change, but it will return to its original value. Samarium-149 Response to Reactor Shutdown Since the neutron flux drops to essentially zero after reactor shutdown, the rate of samarium-149 production becomes the following. dN_Sm dt lPm NPm Because samarium-149 is not radioactive and is not removed by decay, it presents problems somewhat different from those encountered with xenon-135, as illustrated in Figure 7. The equilibrium concentration and the poisoning effect build to an equilibrium value during reactor operation. This equilibrium is reached in approximately 20 days (500 hours), and since samarium-149 is stable, the concentration remains essentially constant during reactor operation. When the reactor is shutdown, the samarium-149 concentration builds up as a result of the decay of the accumulated promethium-149. The buildup of samarium-149 after shutdown depends upon the power level before shutdown. Samarium-149 does not peak as xenon-135 does, but increases slowly to a maximum value as shown in Figure 7. After shutdown, if the reactor is then operated at power, samarium-149 is burned up and its concentration returns to the equilibrium value. Samarium poisoning is minor when compared to xenon poisoning. Although samarium-149 has a constant poisoning effect during long-term sustained operation, its behavior during initial startup and during post-shutdown and restart periods requires special considerations in reactor design. Rev. 0 NP-03 Page 45