4.3. Delayed-Neutron Precursors¶
The net rate of change of the delayed-neutron precursor population is given by
(4.3‑1)
\[{\dot{C}}_{\text{i}}\left( t \right) = \frac{\beta_{\text{i}}\phi\left( t \right)}{\Lambda} - \lambda_{\text{i}}C_{\text{i}}\left( t \right)\]
where \(\beta_{\text{i}}\) is the effective delayed-neutron fraction for precursor \(i\), and the initial, normalized steady precursor population is given by
(4.3‑2)
\[C_{\text{i}}\left( 0 \right) = \frac{\beta_{\text{i}}}{\lambda_{\text{i}}\Lambda}\]
In terms of the individual precursor delayed-neutron fractions, the total effective delayed-neutron fraction is given as
(4.3‑3)
\[\beta = \sum_{\text{i}}\beta_{\text{i}}\]
The number of delayed neutron precursors is entered in input variable
NDELAY
, the effective delayed neutron
fractions are entered in input array BETADN
, and the delayed neutron precursor
decay constants are entered in input array DECCON
. The prompt neutron
lifetime is entered in input variable GENTIM
.