I Have a Little Black Hole

Let’s not talk about nuclear submarines. The research and development of nuclear fusion power generation and nano-robots alone gave him a lot of headaches, but these things should be prioritized. At present, the most important thing should be the research and development of nuclear fusion power generation. It should be known that there is already a trend of power shortages in the country.

The reason for such a trend is closely related to the material companies under the Infinite Gravity Group. After the material companies authorize high-performance batteries of various properties to various battery manufacturers for production, electricity is used as the main energy source in the market. A variety of products have experienced explosive growth.

Such as battery cars, which used to only travel for short distances, many people are now willing to drive battery cars with a mileage of at least 2-300 kilometers to travel or go back to their hometown. The sales of battery cars have also begun to explode. .

There are also electric vehicles. The main reason that plagued the large-scale entry of electric vehicles into the market was that the mileage was too short. Now, with high-performance batteries, there are now on the market that it only takes 30 minutes to fully charge a full charge. An electric car with a mileage of 1000 km!

The entire electric vehicle market has begun to quickly seize the market of traditional fossil energy vehicles. Many auto companies have begun to produce electric buses, electric buses, electric sports cars and other electric vehicles, which further intensifies the demand for electricity.

In my country, the mainstream of the electricity market is the thermal power generation that uses coal combustion to obtain electricity, accounting for more than 70%! But how many years can it last to generate electricity from a non-renewable resource like coal? Not to mention the pollution caused to the environment, in this era of emphasizing green development, there must be an alternative to coal power generation, and nuclear power is the most important way to obtain energy in the future.

Burning 1 ton of standard coal will produce 2620 kg of carbon dioxide, 8.5 kg of sulfur dioxide, 7.4 kg of nitrogen oxides and 280 kg of slag, causing serious environmental problems.

In the process of nuclear power production, carbon dioxide, sulfur dioxide, nitrogen oxides and dust and other substances are all zero emissions. Take 2016 as an example. In 2016, the country's cumulative power generation was 6.0 trillion kWh, of which the cumulative power generation of nuclear power was 213.2 billion kWh, a year-on-year increase of about 24.4%, accounting for about 3.5% of the country's total power generation.

Compared with coal-fired power generation, nuclear power generation in 2016 is equivalent to reducing the burning of standard coal by about 65.68 million tons, reducing carbon dioxide emissions by about 172.08 million tons, reducing sulfur dioxide emissions by 558,300 tons, and reducing nitrogen oxide emissions by 486,000 tons.

But the proportion of nuclear power is so small. Wouldn't it be better if the proportion of nuclear power increased? But the development of nuclear power is still very slow. Why is there such a situation? The main reason is that the investment in nuclear power is huge, the safety is easy to cause concerns, and the disposal of nuclear waste also requires a lot of money.

Currently,

We humans can use nuclear energy to generate electricity, but this nuclear energy uses nuclear fission reactions, not nuclear fusion reactions. What if we could use nuclear fusion to generate electricity?

Compared with nuclear fission power generation, the raw materials for nuclear fusion reactions, deuterium and tritium, are very abundant and can be said to be inexhaustible, because they can be extracted from the global seawater. And there is also a large amount of helium-3 stored on the moon, which can also be used in nuclear fusion reactions. In addition, the nuclear fusion reaction does not produce radioactive waste, which is a very clean energy source.

If his nuclear fusion power station is really developed, then he will be awesome. If it is replaced by someone else, he may still worry about whether he can keep the result, but such worry is not for him. existing.

Kuafu, summarize the research and development work related to nuclear fusion that we have completed so far, and see how we have prepared! Lei Tiantang ordered.

Okay boss, at present we have only conducted research on materials. You can see detailed information on the computer for specific situations, boss. Other materials research work is progressing very smoothly, but the most important key materials are not. As expected!

Our research and development of superconducting materials has encountered a bottleneck, and it is still far from the demand for nuclear fusion power generation equipment. In this regard, the boss needs to provide new ideas.

There is still no unified statement on the main structural problems of nuclear fusion power generation equipment. Boss, the superconducting tokamak nuclear fusion device you asked me to pay attention to, because there is no specific data and design drawings, I have no way to conduct simulation experiments.

In short, our nuclear fusion research and development work can only be said to have just started, and there are too many problems to be solved!

The nuclear fusion reaction requires a high temperature of nearly 100 million degrees Celsius. The atomic bomb explosion can reach this temperature. Therefore, when the first hydrogen bomb explodes, the high temperature of the atomic bomb explosion is used to trigger the ignition of nuclear fusion.

But so far, the development of laser technology has made it possible to solve the problem of ignition of nuclear fusion. In addition, ultra-high microwave heating can also reach this temperature.

Secondly, the high temperature at which nuclear fusion is carried out has high internal energy, which means that various energy loss mechanisms will occur. There are also various instabilities in the way of fusion. If these basic scientific problems are not solved, nuclear fusion power generation will not be realized.

Moreover, the problem of device materials is a problem that must be solved for nuclear fusion power generation. The neutron impact generated by fusion and the deposition of nuclear fusion raw materials will also damage the device materials. If it cannot be solved, even if a nuclear fusion reactor is built, it will not be able to operate. how long.

There is also the problem of its radiation. Even if the radiation relative to nuclear fission is small, it still exists, which also creates a big obstacle for nuclear fusion.

All these problems need to be solved before we can officially enter the stage of nuclear fusion power generation. I am not sure how long it will take you and me to develop it alone! Kwafu said a little dejectedly.

Hehe, you! You've all learned to back off! Isn't it just that there are difficulties! I just do it because of the difficulties! I have to do it, otherwise, how can I show that the boss is different from me?

Besides, boss, you also know my goal, to drive a spaceship to the universe, but if the energy problem of the spaceship cannot be solved, then my dream will always be a dream!

To know how vast the universe is, if there is no space jumping equipment on the spacecraft, then I will only be able to wave in the galaxies around the solar system until I die.

When the space jumping equipment performs space jumping, the power system of the spacecraft must provide huge energy in an instant. I guess the energy provided by the nuclear fusion power generation equipment is a bit reluctant, not to mention that we do not even have nuclear fusion yet. Developed! Lei Tiantang said with a smile.