I Have a Little Black Hole

It's no wonder that Kuafu complained about Lei Tiantang so much. He was involved in the whole process of the research of the second-generation spacecraft, and he knew the difficulties he encountered, so he knew that the development progress of the spacecraft was stuck at the last key node. It would be wrong to come to BB.

What are you thinking! I don't want the earth to have to do so many moths if it wants to evolve. How many people died on the earth where Luo Feng lived before Nirvana was reborn? If billions of lives are exchanged for the evolution of technology and life, then I would rather not have this evolution!

And if there is such an advanced scientific and technological civilization, after I devour the body of the small black hole in the future, I will also be able to grab one when I meet them. The new alien spaceship is better than the one that has been buried for many years. Easier to use, right?

As for the black technology system you mentioned, compared to my ability, I still think my ability is good enough. Compared with those black technology systems, my ability is more practical to use!

Because our research is based on our own down-to-earth, step-by-step research, using the technology tree that is also our own earth, which is very important for the future.

For a civilization, a healthy technology tree is more important than any black technology that is suddenly acquired, because black technology without a foundation can easily become weak after a certain level of development, but there is a healthy technology tree. will not.

Because even if a certain research in this technology tree is stuck, as long as other related technologies are still progressing, they will lead to breakthroughs in this stuck research in the near future. not reach.

So I am very satisfied with this ability of mine. No matter what technology can be produced only by the progress of basic materials, what black technology can have my ability to research materials more easily? Lei Tiantang was obviously very dissatisfied with Kuafu's unbearable description of his abilities.

Kuafu's projection eyeballs are about to go up in the sky, he 'cut' and continued to complain: If you envy others, just say it directly, in

What sour here! How do you know that other people's black technology systems can't do this?

If there is such a black technology system, maybe you can already go to the small black hole body by now, why bother to explore the situation there through indirect means?

So if you are not satisfied with our current research speed, then you should increase the research efforts! This is directly to the third-generation nuclear fusion reactor, which is your own goal. If you encounter problems in the research process, you have to solve them with snacks!

According to what you said, our current planetary spacecraft is also stuck in the last step, so can you quickly solve our problems in the research and development of the reactor?

You must know that the planetary spacecraft that has been named 'Earth' in advance is not far from the end of the study. If it was designed according to the second-generation nuclear fusion reactor used in the original plan, this spacecraft would have long been The test flight is ready.

However, this plan was later revised by his own boss, because in his opinion, if the second-generation nuclear fusion reactor is studied step by step, it is better to directly study the third-generation nuclear fusion reactor in one step.

The second generation of deuterium-helium 3 does not produce radiation, but not only does deuterium-helium react, but also deuterium-helium reacts with radiation. If there is radiation, a radiation absorption isolation layer has to be added, and the absorption isolation layer has to be replaced after a period of time. Although the number of neutrons it produces is already very small, there are some things that exist. As long as neutrons are generated, these things should be there. There is no way you can cancel.

And this kind of nuclear fusion reactor still has no way to be fundamentally different from the first-generation nuclear fusion reactor they are using now. There is no way to reduce the size much, and maintenance is also very troublesome, and technically speaking, the second-generation nuclear fusion reactor Fusion reactors aren't much of a boost either.

If the second-generation nuclear fusion reactor is directly used, it is still necessary to conduct research on issues such as anti-radiation materials, reactor magnetic field control, and reactor temperature maintenance.

Compared with this, Lei Tiantang felt that it would be better to directly study the third-generation nuclear fusion reactor.

Because in theory, only third-generation helium-3-helium-3 fusion nuclear fusion reactors are truly safe and clean, and provide more energy and nuclear fuel more readily available.

But the theory of this thing is a theory, and it is not a simple matter to really want to solve the related problems here, just like all countries in the world except Huaxia are still struggling with the first generation of nuclear fusion reactors. It's hard to pass, not to mention the other issues involved in a nuclear fusion reactor.

The most attractive thing about helium 3 is its excellent potential as an energy material. Deuterium and helium 3 can undergo nuclear fusion. This fusion does not produce neutrons, so the radioactivity is small, and the reaction process is easy to control, which can be regarded as both pollution-free and safe.

Helium 3 can be used not only in ground-based nuclear power plants, but also as fuel for rockets and spacecraft, and for space travel. For every ton of helium-3 extracted from the lunar soil, 6,300 tons of hydrogen, 70 tons of nitrogen and 1,600 tons of carbon can be obtained.

1 ton of helium 3 is enough to ensure that a generator set with a power of 10 million kilowatts can work for 1 year. Burning 1 kg of helium 3 can generate 19 megawatts of energy, enough to power a typical city for more than 6 years.

A million kilowatt thermal power station consumes 2.1 million tons of coal every year; if the power plant is a fission nuclear power station, it needs 30 tons of nuclear fuel. But if it is a helium-3 fusion power plant, the fuel will only need 600 kilograms.

Compared with the accelerated development of thermonuclear fusion devices using deuterium and tritium reactions, using helium-3 for nuclear fusion reactions has more advantages than using tritium as fuel.

Mainly in: 1,: It produces more energy in response, and this advantage is attractive enough. The greater the energy generated, the more energy it can provide, which is obvious for the speed improvement of the spacecraft. .

2: In the traditional tritium nuclear reaction process, along with the generation of nuclear fusion energy, a large number of high-energy neutrons are generated, and these neutrons can cause extensive radioactive damage to the nuclear reactor; on the contrary, if helium-3 is used as a reactant , it mainly produces high-energy protons instead of neutrons, which is more beneficial to environmental protection.

3: Tritium itself is radioactive, but helium-3 is not. This safety is enough for Lei Tiantang to choose to focus on the third-generation nuclear fusion reactor, because compared to storing fuels such as deuterium and tritium on the spacecraft, it is also safe. It is better to save space on the spacecraft than to store helium 3, a safe fuel.

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