I Have a Little Black Hole

This nuclear submarine base needs a lot of electricity, and the lower nuclear fusion reactor also needs a lot of electricity for experiments, so it is very necessary to build a nuclear fission reactor.

It's not as if we have to carry out nuclear fusion reactor experiments, why do we need nuclear fission reactors? Not to mention other things, when a nuclear fusion reactor is ignited, a huge amount of energy is needed to supply the ignition device, because to achieve a nuclear fusion reaction, the ignition temperature must exceed a high temperature of 100 million degrees. Without continuous energy, how can it be ignited smoothly? Finish.

Moreover, maintaining the nuclear fusion reactor also requires continuous power supply. The entire nuclear fusion reactor Lei Tiantang and Kuafu use magnetic confinement tokamak devices. to maintain it.

Otherwise, if the nuclear fusion reaction loses its restraint during the operation, the consequences can be imagined. In order to ensure that there will be no danger caused by possible power outages, Lei Tiantang has equipped the nuclear fission reactor with a large number of high-performance batteries. Very necessary.

Because it is on the bottom of the sea, the cooling water required by the supercomputer unit is large and full, so this time Lei Tiantang does not need to search for stable and continuous groundwater to cool them.

Anyway, the seawater also takes away the heat in the cooling pipe, and there is no need for desalination. For Lei Tiantang and the others, there are really several kinds of anti-corrosion materials.

After Lei Tiantang installed the nuclear fission reactor, Kuafu had already connected the entire supercomputer unit, and he would just leave the rest of the work to him.

He needs to continue digging down. The laboratory of the nuclear fusion reactor is the key point. In order to ensure the safety of the laboratory, Lei Tiantang and Kuafu designed a crazy construction plan!

Just like the construction of the nuclear submarine base above, when the entire nuclear fusion reaction base dug out such a huge space, Lei Tiantang did not say that those rocks were put away, but used the absolute field to dig these rocks and the rocks on the base wall. Extremely compressed!

Make the entire base wall as hard as diamond! And the entire compressed wall thickness reached 30 meters! Such a thick high-strength rock formation ensures the overall safety of the base even in the face of an earthquake of magnitude 10 or higher!

In order to avoid the possible radiation leakage of the reactor, a radiation protection material up to 1 meter thick is also laid on the entire wall. The whole material is the latest research by Lei Tiantang and Kuafu. You can imagine their madness!

In order to avoid the serious consequences of the possible explosion of the nuclear fusion reactor, Lei Tiantang and Kuafu designed 5 layers of high-strength buffer layers behind the radiation-proof material, and behind each layer are densely packed high-elasticity springs. !

These springs are densely hooked together,

A high-strength flexible material is also used for the spacer between each layer of springs, which can further play a buffering role.

After Kuafu's simulation calculation, under such a strong buffer layer, even if the reactor explodes, it will destroy the nuclear fusion reactor laboratory at most, and the nuclear submarine base above will not be damaged!

It took half a day for Lei Tiantang to finally complete the construction of these complex designs, and the various channels reserved were also completed.

In the end, Lei Tiantang carefully placed the nuclear fusion reactor built long ago in the center of the laboratory, and then worked with Kuafu to connect the reactor and the laboratory's various pipes and various connecting cables and other equipment together.

The whole work lasted for nearly a day. After all the installations were completed, Lei Tiantang checked it carefully and finally sighed: Finally completed, the rest of the work can be handed over to you!

Okay boss, after the self-check of the reactor is completed, if it is in good condition, then the ignition experiment can be carried out. Do you need to leave the submarine base? Kuafu asked as usual.

Then follow the procedure to start the self-check, and fire it up if there is no problem! As for me, I don't have to leave, the entire base is the safest when I'm here!

With my control, even if there is an accident in the reactor, I can instantly prevent the accident from happening, so as not to blow up the base we just built! Lei Tiantang said with a smile.

Okay boss! Then I'll start the self-test and coolant filling!

The superconducting coil is energized normally!

Liquid nitrogen coolant starts filling!

The whole system power supply system detection is normal!

The annular vacuum chamber detection is normal!

The laser ignition device is normal!

 …”

While testing, Kua Fu reported to Lei Tiantang that he had detected the part. Hearing the sound of passing the tests, Lei Tiantang was both nervous and happy.

He and Kuafu have been busy for so long, and finally completed the design and manufacture of the entire nuclear fusion reactor. The difficulties encountered in the entire research and development process are simply countless!

The overall structure of a nuclear fusion reactor itself is very complex, and there is no successful experience in the world for Lei Tiantang to learn from. Those reactors that can only run for about 100 seconds after ignition are not mature designs.

So the current nuclear fusion reactor has begun to condense the hard work of Lei Tiantang and Kuafu! Re-research can only be carried out based on those immature designs. Many theories need to be verified one by one, especially in the research and development of various materials!

At present, those high-performance materials used in nuclear fusion reactor laboratories in various countries in the world, such as superconducting materials and neutron-resistant materials, cannot meet the use of real nuclear fusion reactions.

This is also the reason why those reactors can only last so short, especially the neutron radiation resistant materials, each deuterium-tritium fusion produces a neutron with an energy of 14MeV, these high-energy neutrons can easily smash the metal in the first wall material bond, resulting in a large number of defects, causing radiation swelling, embrittlement, creep and other problems, making the material completely unusable.

Therefore, the development of new anti-radiation materials is the biggest problem they face, because if this problem cannot be solved, there will be no way for the nuclear fusion reaction to be used for a long time.

And because the material of this first wall needs to face the continuous bombardment of neutrons, many elements will undergo nuclear reactions and transmutation into other nuclides. Some nuclides are unstable and will continue to emit radiation by further decay.

In this way, the advantage of the fusion reaction without radiation pollution products is lost, so the materials used for the first wall are all low-activation materials, that is, elements that are still stable and non-decay after transmutation.