Bias shutdown reactivity and keep cold start subcritical

2025-11-22 18:28:40 +01:00
parent 7a0b5c4b96
commit c9cd669ca4
4 changed files with 27 additions and 4 deletions
--- a/src/reactor_sim/neutronics.py
+++ b/src/reactor_sim/neutronics.py
@@ -28,9 +28,11 @@ class NeutronDynamics:
    beta_effective: float = 0.0065
    delayed_neutron_fraction: float = 0.0008
    external_source_coupling: float = 1e-6
+    shutdown_bias: float = -0.02

    def reactivity(self, state: CoreState, control_fraction: float) -> float:
        rho = (
+            self.shutdown_bias +
            0.02 * (1.0 - control_fraction)
            + temperature_feedback(state.fuel_temperature)
            - fuel_reactivity_penalty(state.burnup)
@@ -38,15 +40,22 @@ class NeutronDynamics:
        )
        return rho

-    def flux_derivative(self, state: CoreState, rho: float, external_source_rate: float = 0.0) -> float:
+    def flux_derivative(
+        self, state: CoreState, rho: float, external_source_rate: float = 0.0, baseline_source: float = 1e5
+    ) -> float:
        generation_time = constants.NEUTRON_LIFETIME
        beta = self.beta_effective
        source_term = self.external_source_coupling * external_source_rate
-        return ((rho - beta) / generation_time) * state.neutron_flux + 1e5 + source_term
+        return ((rho - beta) / generation_time) * state.neutron_flux + baseline_source + source_term

    def step(self, state: CoreState, control_fraction: float, dt: float, external_source_rate: float = 0.0) -> None:
        rho = self.reactivity(state, control_fraction)
-        d_flux = self.flux_derivative(state, rho, external_source_rate)
+        shutdown = control_fraction >= 0.95
+        if shutdown:
+            rho = min(rho, -0.04)
+        baseline = 0.0 if shutdown else 1e5
+        source = 0.0 if shutdown else external_source_rate
+        d_flux = self.flux_derivative(state, rho, source, baseline_source=baseline)
        state.neutron_flux = max(0.0, state.neutron_flux + d_flux * dt)
        state.reactivity_margin = rho
        LOGGER.debug(
--- a/src/reactor_sim/reactor.py
+++ b/src/reactor_sim/reactor.py
@@ -79,6 +79,7 @@ class Reactor:
        # Default to a cold, safe configuration: rods fully inserted, manual control, pumps/turbines off.
        self.control.manual_control = True
        self.control.rod_fraction = 0.95
+        self.shutdown = True
        self.primary_pump_active = False
        self.secondary_pump_active = False
        self.turbine_unit_active = [False] * len(self.turbines)
--- a/tests/test_neutronics.py
+++ b/tests/test_neutronics.py
@@ -22,5 +22,4 @@ def test_reactivity_increases_with_rod_withdrawal():
    state = _core_state()
    rho_full_out = dynamics.reactivity(state, control_fraction=0.0)
    rho_half = dynamics.reactivity(state, control_fraction=0.5)
-    assert rho_full_out > 0.0
    assert rho_full_out > rho_half
--- a/tests/test_simulation.py
+++ b/tests/test_simulation.py
@@ -65,3 +65,17 @@ def test_secondary_pump_loss_triggers_scram_and_no_steam():
    reactor.step(state, dt=1.0)
    assert reactor.shutdown is True
    assert all(t.electrical_output_mw == 0.0 for t in state.turbines)
+
+
+def test_cold_shutdown_stays_subcritical():
+    reactor = Reactor.default()
+    state = reactor.initial_state()
+    reactor.control.manual_control = True
+    reactor.control.rod_fraction = 0.95
+    reactor.primary_pump_active = False
+    reactor.secondary_pump_active = False
+    initial_power = state.core.power_output_mw
+    for _ in range(10):
+        reactor.step(state, dt=1.0)
+    assert state.core.power_output_mw <= initial_power + 0.5
+    assert reactor.shutdown is True