Make sure the injection rate is high enough and fuel is constantly being supplied. To sustain the reaction, the temperature must not drop below the ignition temperature. If a high enough temperature was achieved, you should immediately see and hear the reactor running. With the Hohlraum in the Reactor Controller and enough energy stored in the Amplifier, fire the laser to begin the fusion reaction. It must be injected in one big burst to prevent temperature from dissipating, so adding Redstone sensitivity or increasing the minimum energy required by the Amplifier will prevent it from firing prematurely. The energy required to start the reaction it requires 400MFE. To reach this temperature, a Laser Amplifier must be charged with energy from several Lasers feeding into it, and fired into the Laser Focus Matrix.
The statistics tab details the required ignition temperature for the reaction to begin. Place the Hohlraum into the Reactor Controller when it contains the required D-T Fuel. To fill it up, place it into a Chemical Infuser which is combining Deuterium and Tritium. The Hohlraum stores 10 units of D-T Fuel required for the initial reaction. This can be done quickest at 10MFE/t usage on the heater Once the reaction is jump started, it will begin consuming supplied Deuterium and Tritium, creating plasma and generating power.Īlternatively you can use a Resistive Heater heating the reactor to 100.00MK Plasma temperature. It requires an outside burst of energy from a charged Laser Amplifier and a small amount of D-T Fuel to begin the fusion process. The Fusion Reactor will not start on its own. The Statistics gives the user various technical information regarding injection rate, max temp, passive generation and steam production. You access the GUI of the Fusion Reactor by right-clicking the reactor's Reactor Controller. Reactor Ports for input/output and a Laser Focus Matrix for the laser. The centers of the sides can be Reactor Ports.Ī complete square of Reactor Frame but with
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