I have a little black hole

It's no wonder Kwak Father wanted to throw up so badly. He was involved in the research of the second generation of spacecraft. He also knew the difficulties encountered, so knowing that the ship's R&D progress was stuck at the last key node and coming to the BB was wrong.

“What are you thinking? I don't want the planet to evolve with so many moths. How many people died before Nirvana was reborn? If billions of lives were to be traded for the evolution of technology and life, I'd rather not!

And if there is such an advanced technology civilization, in the future, when I devour the body of the little black hole, I will also be able to grab them directly when I encounter them. New alien spacecraft will always be easier to use than those buried with unknown teenagers, right?

As for what kind of black technology system you are talking about, I still think that my ability is good enough compared to my ability. Compared to what kind of black technology system, my ability is more reliable to use!

Because our research is a real step on our own, starting from the foundation, using our planet's own technology tree, which is very important for the future.

For a civilization, a healthy technology tree is more important than what black technology suddenly acquires, because black technology without foundation is easy to develop after a certain degree of weakness, but not with a healthy technology tree.

Because even if one of the research in this technology tree is stuck, as long as other related technologies are still advancing, they will drive this stuck research to make breakthroughs in the near future, which is what those doctrines can't do.

So I am very satisfied with my ability. Whatever technology ultimately depends on the progress of the basic materials to make it. Ask what black science skills are more convenient for me to study materials like this? "Lui Tiantang is obviously dissatisfied with what Father has said about his ability.

Father's projected eyeballs were about to turn up. He ‘cut’ and continued to vomit: "I envy people to say that in

There's no acid in here! How do you know people's black technology systems can't do that?

If there was such a black technology system, you might already be able to go to the little black hole body by now, why would you still be here scratching your boots to explore the situation through indirect means?

So if you are dissatisfied with the speed of our research, then you should intensify your research! This goes straight to the third generation nuclear fusion reactor, and that's a goal you've set yourself, and you're going to have to solve them with a little snack!

According to you, our planetary spacecraft is stuck in the last step, so can you solve our problems in reactor development quickly? "

Knowing that the planet-class spacecraft that had been named Earthly was not far from the end of the study, the spacecraft would have been ready for a test flight had it been designed according to the second-generation nuclear fusion reactor used in the original plan.

But this plan was later modified by our boss because, in his view, it would be better to study second-generation fusion reactors step-by-step than to directly study third-generation fusion reactors step-by-step.

The second generation of deuterium helium-3 does not produce radiation, but it reacts not only with deuterium helium, but also with deuterium. If there is radiation, you have to add a radiation absorption isolation layer, and you have to replace this absorption isolation layer over time. Although the number of neutrons it produces is already small, it is there, just to produce neutrons, you can't cancel these things that should be there.

And there's still no way that this kind of fusion reactor is fundamentally too different from the first-generation fusion reactor they're currently using. There's no way that it can be much reduced in size, maintenance is very troublesome, and technically speaking, the second-generation fusion reactor is not much improved.

If it goes directly to the second-generation nuclear fusion reactor, it is still necessary to carry out research on radiation-resistant materials, reactor magnetic field control, reactor temperature maintenance and other issues. Compared to this, Lei Tiantang feels that it is better to directly study the third-generation nuclear fusion reactor.

Because theoretically only a third generation helium 3 helium 3 fusion nuclear fusion reactor is truly safe and clean and provides more energy, nuclear fuel is more readily available.

But the theory of this thing is theory. I really want to solve the related problems in this, but it is not a simple thing, just like all the countries of the world except Huaxia are still struggling with the first generation of nuclear fusion reactors, materials alone is not good, let alone other problems involved in nuclear fusion reactors.

Helium 3 is most attractive to humans because of its excellent “potential" as an energy material. Deuterium and Helium 3 can undergo nuclear fusion, which does not produce neutrons, so it is small in radioactivity and the reaction process is easy to control, which is both pollution-free and safe.

Helium-3 could be used not only for terrestrial nuclear power plants, but also particularly well suited for cooperation as a fuel for rockets and spacecraft for space navigation. For every ton of helium 3 extracted from the Moon's soil, 6300 tons of hydrogen, 70 tons of nitrogen and 1600 tons of carbon are obtained.

1 ton of helium 3, enough to guarantee a 10 million kW generator set to work for 1 year. Each kilogram of helium 3 burned produces 19 megawatts of energy, enough for a typical city lighting for more than six years.

A million-kilowatt thermal power plant consumes 2.1 million tons of coal per year; if it were a fission power plant, it would need 30 tons of nuclear fuel. But if it were a helium-3 fusion power plant, only 600 kilograms of fuel would be needed.

Helium-3 has more advantages than tritium as a fuel than thermonuclear fusion devices utilizing deuterium and tritium reactions, which are developing at an accelerated rate.

The main performance is: 1.: It produces more energy in response. This advantage alone is attractive enough. The greater the energy produced, the more energy it can provide, which is obvious for the speed increase of the ship.

2: In the traditional tritium nuclear reaction process, the production of nuclear fusion energy is accompanied by the production of a large number of high-energy neutrons, which can cause extensive radioactive damage to the nuclear reaction device; in contrast, if helium-3 is used as the reactant, it is mainly producing high-energy protons rather than neutrons, which is more advantageous for environmental protection.

3: Tritium itself is radioactive, while Helium-3 is not. This safety is enough for Lei Tiantang to choose to focus on the third generation of nuclear fusion reactors, because it is less space saving than reserving safe fuel such as Helium-3 than storing it on board.