The purpose of this production line layout is to meet the aesthetic, spatial saving and resource saving as much as possible under the premise that the nuclear fuel consumption of the nuclear fission reactor 51MB/T is consumed.

The production rate of 51MB/T has special significance, because the water consumption of the 51MB/T nuclear fissure reactor is exactly satisfied with a 5*5*9 steam turbine recovery water, and the steam turbine of 5*5*9 has the highest at the same volume at the same volumeCost -effective.

Next, I will introduce the figure below:

1: The pressure reaction room, the water produced by the pump on the right, the oxygen from the chemical storage tank below, input coal/charcoal/charcoal block through the QIO outputor or logistics pipeline, and the hydrogen output on the top to the chemical storage tank above, Enter the product sulfur powder into the left

2: Chemical oxidation machine, receive sulfur powder produced by the pressure reaction room on the right, and the oxide produces sulfur dioxide input to below

3: Chemical irrigation device, receive sulfur dioxide produced by chemical oxide at the top, receive oxygen from chemical storage tank on the right, and produce sulfur dioxide input to the left side

4: Chemical irrigation device, receive sulfur dioxide produced by the chemical irrigation in the right, receive water vapor provided by the gas fluid converter below, and produce sulfuric acid input to the top

5: Retoning air -liquid converter, receive the water of the square pump, and enter the water vapor input to the top

6: Chemical storage tank, receiving hydrogen

7: Chemical storage tank, output oxygen

8: Chemical solubility room, receive the sulfuric acid below, enter fluorite in front of the QIO outputer or the logistics pipeline, and input to the left side of hydrofluoric acid. You need to install 4 speed upgrades and 8 gas upgrades upgrade

9: Advanced wealthy factories, input uranium ingots through QIO output or logistics pipelines, output uranium cake output to the left and right, you need to install 3 speed upgrades

10: Chemical oxide machine, receive the uranium cake on the left, and the output of uranium oxide is input to 12 by pressurizing the pipeline

11: Chemical oxide, receiving the uranium cake on the right, and the output of uranium oxide into the bottom, you need to install 8 speeds to upgrade

12: Chemical irrigation, receiving uranium oxide in front and above, receiving the right hydrofluoric acid on the right, outputting hexarium -fluoride uranium to the left and below.

13: Homotherapytoplasty, receiving hexarial uranium on the right, input fission fuel input to the left pressure pipe, you need to install 5 speeds to upgrade

14: Homotherapytoplasty, receiving the hexarial uranium uranium on the right pressure pipe, input the fission fuel input to the left, you need to install 5 speeds to upgrade

15: Quantum conveyor, used to receive fissure fuel and transmit to a nuclear fissure reactor from a long distance. You can also use a chemical storage tank instead

After the output of this nuclear fission fuel production line is stable, the output is slightly greater than 51MB/T. All accelerated upgrade installations are just right, and there is no waste of power.

There are two chemical oxidatives used to produce uranium oxide, because a full -speed chemical oxidant cannot meet the demand for 51MB/T output.

The system produced a coal, fluorite, and the proportion of uranium ingots needed for a core fissure fuel.