He hasn’t replicated the supercomputer for the time being, because he finally found out that he has a hundred secrets. Now even if the supercomputer is copied and manufactured, it is useless, because the underground laboratory is missing the most important one. He ignored the link, this problem is the energy problem!

Think about it, ordinary supercomputers are a big power user, not to mention the larger-scale supercomputers he wants to build, let alone the energy consumption of his laboratory equipment, which is not a big power user, but so big. The electricity consumption is always impossible to follow from the laboratory above, right?

　　 As long as you are not fools, not to mention the commercial spies, even the financial staff of the company will find that the situation is abnormal. After all, the amount of electricity bills is not correct.

Lei Tiantang was about to cry stupidly when things came to life. He always thought that his brain was so good that he would be foolproof in doing things. Only now I found out that some things are really not good. His own wisdom is still limited, which makes him even more looking forward to real artificial intelligence.

If there was artificial intelligence to check the deficiencies in his plan before, he would definitely not delay such an important matter until now. It seems that it is necessary to create a weak artificial intelligence in advance. The scale of the supercomputer and the designed weak artificial intelligence performance must not be too low. At least it can be used in experiments to help him with chores. More importantly, he can be reminded through big data analysis. Sometimes overlooked issues.

　　 Regarding the issue of energy, Lei Tiantang first thought of nuclear fusion. He could design a real nuclear fusion reactor. After all, he could realize the construction of a nuclear fusion reactor if he used the absolute field to create a strong magnetic field.

The so-called magnetic confinement fusion reactor uses a special form of magnetic field to confine the ultra-high temperature plasma composed of light atomic nuclei such as deuterium and tritium and free electrons in a thermonuclear reaction state in a limited volume, so that it generates a large amount of control in a controlled manner. The nuclear fusion reaction releases the energy contained in the nucleus.

Magnetic confinement thermonuclear fusion is currently the most promising way to develop fusion energy. In the exploration of controlled nuclear fusion, many magnetic confinement approaches have been proposed. Among them, the toroidal magnetic confinement device (tokamak) is the current experimental plan. The most successful method. The center of the tokamak is a ring-shaped vacuum chamber with coils wound on the outside. When the tokamak is energized, a huge spiral magnetic field will be generated inside the tokamak, heating the plasma in it to a high temperature to achieve nuclear fusion the goal of.

The EAST of the Institute of Plasma of the Chinese Academy of Sciences adopts the world’s first non-circular cross-section full superconducting tokamak, and the Huaxia Circulator No. 1 of the Southwest Institute of Physics and the International Thermonuclear Fusion Experimental Reactor (ITER) project also adopt the tokamak. The principle realizes the controllable release of fusion energy. The magnetic confinement equipment is relatively large, but it has good continuous response performance and does not require repeated ignition. It is suitable as a power supply system for nuclear power plants and large ships, but its disadvantages are poor switching fire performance, insufficient flexibility, and the electrical energy required to maintain a strong magnetic field The cost is not low.

It can also be seen from here that a large amount of energy is needed to realize the fusion reaction, so the problem is back to the original point. His current problem is that there is no energy for him to use, and the power supply in the laboratory above cannot be used to control the reactor. Nuclear fusion, right? It's strange that the line doesn't burn!

So the first step is to use mature fission nuclear power plant reactors. After all, this technology is already very mature, and domestic technology is also world-leading. There are ready-made targets to copy. He just needs to read and copy. One is fine.

　　 And he doesn't need to build so many units. According to the scale of his underground laboratory, it is estimated that one unit is enough for him to use. Then it will be much easier to develop a nuclear fusion reactor.

Of course, he must conquer the nuclear fusion reactor, because his spacecraft plan also needs it to support. The engine's energy must use the fusion reactor, and only the large amount of energy provided by the fusion reactor can transform the huge universe The spacecraft is launched into space, and the energy needed to navigate the solar system also needs its support.

Scratching his head, Lei Tiantang flew up from the elevator shaft dejectedly. The work below will be left as it is for the time being. Anyway, even if the equipment is placed properly, it is useless. He has to solve the energy problem first. It's useless below.

When he was in a bad mood, he was not in the mood to watch the night scene in the sky, so he flew home and used the computer to start checking the situation of domestic nuclear power plants~lightnovelpub.net~ He looked for the most advanced one to'learn' and learn from 'Now, as for the nuclear materials needed by the reactor, he left a lot of it when he swallowed the planet last time. There is no need to worry about this problem, not to mention that he can go to a certain resource even without the nuclear fuel provided by that planet. Dig in very rich countries!

After checking the information on the computer for a while, some of the current mature nuclear power plants in China are not the most advanced technology, but the safety factor is very high. This can be seen from the fact that our country has never had a major safety accident. .

At present, the most advanced nuclear power plant is the fourth-generation nuclear power plant technology independently developed by China. On December 9, 2012, China’s self-developed world’s first high-temperature gas-cooled nuclear power plant with the characteristics of fourth-generation nuclear power was located in Dongshan Province on the eastern coast of China. The Huaneng Shidaowan Nuclear Power Plant in Rongcheng City restarted construction. Shidaowan Nuclear Power Station is a joint venture constructed by Huaneng Group, Huaqing University and China National Nuclear Construction Group. It is China’s first high-temperature gas-cooled reactor demonstration power station with independent intellectual property rights, and the world’s first module with fourth-generation nuclear energy system safety features. Commercial-scale demonstration power station of a high-temperature gas-cooled reactor.

The modular high-temperature gas-cooled nuclear power plant has inherent safety, simple system, high power generation efficiency, wide range of uses, and potential economic competitiveness. It is widely valued internationally and is a fourth-generation advanced nuclear reactor type that can meet the needs of the future energy market. one.

Of course, the most advanced one is necessary. After Lei Tiantang checked the location of the Shidaowan Nuclear Power Plant, no matter what time it was at night, he took out the phone and contacted his private jet pilot to get him ready for the plane. He will fly directly to WH International Airport tomorrow. After all, the construction problem of the underground laboratory is waiting for him. The energy problem has not been solved in a day, and his underground laboratory is just a display.