This tutorial is set by the author's setting without permission.
In the newer IC2EXP version, the calories of the MOX fuel rod will double the heat in a fluid reactor greater than 50%.In other words, fluid stacks can also play MOX temperature control.If you are not sure whether the version you use supports the fluid MOX double -fold heat, you can set the thermal exchanger on the side of the MOX rod according to the reactor method according to the tutorial method to observe whether the heap temperature continues to rise. If you rise, you can use fluid MOX.
Before starting, you need to prepare IC2EXPREACTORPLANNer to simulate the fluid MOX heap.Before simulating the fluid MOX heap, you need to adjust the mode to the fluid mode and set the value of the initial heap temperature to more than 50%.
After setting, you can place a reactor.Like ordinary fluid piles, the fluid MOX heap cannot be used for strong cold heat dissipation. Only the heat emitted by the heat sink will be used to heat the coolant.
It should be noted that the MOX fuel rod is doubled in this case, so it takes twice the heat dissipation.
For example, the following configuration can completely distribute 96 points when the heap temperature is within 50%.
However, when the heap temperature is greater than 50%, due to the double heat production, the four -united MOX rod heat becomes 192 points. This configuration can no longer provide enough heat dissipation:
At this time, we need to enhance the heat dissipation:
In order to enhance the power generation, you can also put a copy below:
In this way, we obtained an average heat output of 767.42HU/T with two four -united MOX rods. After converting with Sterling Power Energy, the average of 575.565EU/T can be obtained, even higher than 94% of the same configuration 94%Temperature EU pile.
Finally, set up a reactor and use temporarily removing heat dissipation and other methods to heat up.It should be noted that once it reaches 50%, it needs to be recovered as soon as possible, because the heat of the MOX rod above 50%of the calories is doubled, and the heap temperature rises faster.
Other steps can be found in the construction method of ordinary fluid stacks.
Summary: The heat reactor of the MOX rod is doubled in the fluid reactor greater than 50%of the heap temperature. It needs to be used for double heat dissipation, which can produce double output
