Reactor Startup Rate (SUR)

SUR 26.06 26.06 18.1 sec 1.44 DPM ¯ eff eff 0.0068 ( 0.00130) 0.05 sec¹ ( 0.00130) 124.6 sec SUR 26.06 26.06 124.6 sec 0.2091 DPM P P_o e^t / 100 W e^(120 s/^{124.6 s)} 38.2 W P P_o 10^SUR (t) (100 W) 10⁽^{0.2091 DPM) (2 min)} 38.2 W Reactor Theory (Reactor Operations) DOE-HDBK-1019/2-93 REACTOR KINETICS Rev. 0 NP-04 Page 19 Step 3: The startup rate can be calculated from the reactor period using Equation (4-11). Example 2: 130 pcm of negative reactivity is added to a reactor that is initially critical at a power of 100 watts. for the reactor is 0.05 sec and the effective delayed neutron fraction is eff -1 0.0068. Calculate the steady state period and startup rate. Also calculate the power level 2 minutes after the reactivity insertion. Solution: Step 1: Use Equation (4-9) to calculate the reactor period. Step 2: The startup rate can be calculated from the reactor period using Equation (4-11). Step 3: Use either Equation (4-1) or Equation (4-10) to calculate the reactor power two minutes after the reactivity insertion.