This tutorial is set by the author to use the CC by-NC protocol.

The following formulas and data are from the source code and experiments

Hot capacity = number of shell blocks*1 000J/k = (length, width height- (length-2) (wide-2) (high -2))*1 000

Boiling efficiency = min (1, fuel component surface area/number of fuel components/4)

Boiling temperature = 373.15k

Effective heat = boiling efficiency*(current temperature-boiling temperature)*heat capacity

In the case where the cooler is sufficient

Effective heat dissipation = cooling agent thermal guidance (water 0.5 sodium steam 1)*Effective heat

The heating rate of water coolant = steam efficiency (0.2)*Effective heat dissipation/steam thermal cricket (default 10)

Gas cooling agent heating rate = effective heat dissipation/cooler heat sink (sodium steam 5)

Units fission fuel produces heat = 1 000J/mb

The reactor 1 200K starts to damage 1 800K to the maximum damage rate

It can be obtained through the above formulas and data

Water heating rate = Burning rate*20 000 // Actually slightly lower, because the reactor will naturally dissipate heat.

Sodium steam heating rate = Burning rate*200 000 // The same above, the actual actual is slightly lower.

The maximum combustion rate of water cooling = thermal capacity*boiling efficiency*0.000413425 = (length, width, height-(long-2) (width -2) (high -2))*boiling efficiency*0.413425 // The same as above, it can actually be slightly higher.

Sodium steam cold maximum combustion rate = heat capacity*boiling efficiency*0.00082685 = (length, width height- (length-2) (width-2) (high -2))*boiling efficiency*0.82685 // Ibid.

Formula verification

Fission reactor statistics

Fission reactor is mainly

As above, the hot capacity 130 000J/k boiling efficiency 0.563 water -cooled piles.

With the fission fuel consumption speed of 30.2, the temperature is close to 1 200K, and the heating rate is 603 300MB/T, which basically conforms to the formula.