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DANES Power Plant, 100 MW

Democritus of Abdera Nuclear Energy Station

Nominal Output: 100 MW
Maximum Output: 110.8 MW*

* Throughput limited to 100 MW by High Voltage Battery

Power Generation: (4x) Steam Turbines, 27 MW each

Heat Source: Nuclear Reactor

Power Connection: (1x) High Voltage Bridge on roof fascia at each building corner, (4x) total.

Water Inlet: (1x) Port at rear of building, connect to local water supply.

Cooling: (1x) Exhaust fan.

Storage: (4x) Containers, sufficient space for five (5) full reactor refueling cycles.

=Reactor Panel Controls=
Manual positioning of control rods, up/down - each zone and combined
Automatic control rod positioning, on/off - each zone
Coolant Valves - open/close
Neutron Injection - on/off
SCRAM

=Reactor Panel Displays=
Neutron Count (M) in each zone
Temperature (K) in each zone
Control Rod Position, 0-100
Coolant Temperature in
Coolant Temperature out
Coolant flow rate
System Status

=Turbo Pump Controls and Displays=
Turbo Pump, on/off - individual (4x)
Flow Rate, individual and combined

=Coolant Controls and Displays=
Tank fill valve, open/close
Coolant fill valve, open/close
Coolant recirculation valve, open/close
Exhaust Fan, on/auto
Coolant Tank temperature (K)
Coolant Tank fill level (%)

=Turbine Controls and Displays=
Steam Valve, open/close, individual (4x)
Power Output (kW), individual and combined

=Power Distribution Controls and Displays=
External Power Supply, on/off
Throughput (kW) of Battery No.3, connected to exterior Power Connections.
Battery 1 voltage and charge level (%), power bank for Turbines I and II
Battery 2 voltage and charge level (%), power bank for Turbines III and IV
Battery 3 voltage and charge level (%), power bank for exterior Power Connections
Battery S voltage and charge level (%), low voltage battery for internal building loads



RECOMMENDED START-UP PROCEDURE

Note: Creative mode can skip steps 2-5. Press V on the Coolant Tank and fill with liquid H2O.

1. Spawn the building on a flat site.

2. Connect the building to the local water supply. The Water Inlet Port is located on the exterior of the building at the rear.

3. Go to the panel in the control room. Open the Tank Fill Valve and the Coolant Inlet Valve.

4. Turn on Turbo Pump 1. The Coolant Tank should fill in a few seconds.

5. When Coolant Tank is full, close Tank Fill Valve and Water Inlet Valve. Turn off Turbo Pump 1.

6. Open Coolant Recirculation Valve. Building can be disconnected from local water supply.

7. Place uranium rods in reactor, at least (2x) uranium rods per zone. Filling the reactor with uranium rods is recommended. Enriched uranium is not required for operation. Reactor designed to run filled with 10% U235.

8. Turn on Automatic Control Rod Positioning for zones 1-4. Control Rods will adjust to maintain a core temperature of approximately 1100 K.

9. Turn on Neutron Injection to begin the reaction. Neutron injection can be stopped after a few seconds.

10. Open Reactor Coolant Valves 1 and 2.

11. Turn on Turbo Pumps 1-4.

12. Open Turbine Steam Valves 1-4. Turbines begin generating power when coolant temperature reaches 373 K. Turbines each produce 27,700 kW maximum at an optimal temperature of 650 K.

13. Energy Station is operational and ready. Turn on External Power Supply to provide electrical power.

14. Connect high voltage electrical demands to roof Power Connections.

15. Sudden high voltage demand will cause core temperature to temporarily drop. Inversely, sudden loss of demand will increase core temperature. Control rods will adjust positioning to maintain core temperature. If core temperature exceeds 1200 K in any zone, Exhaust Fan will automatically activate. Exhaust Fan can be manually operated to accelerate cooling as required.