Born Tech Mad

In order to solve the century-old plan of national development, Ross began to devote his energy to the research of nuclear fusion technology.

Yuta Corporation's "nuclear fusion factory" and "anti-gravity factory" have already begun construction, and Ross has also started to use the Huaxia No. 1 supercomputer to assist in the design of nuclear fusion reactors.

The design principles of "nuclear fusion reactor" and the "nuclear power plant reactor" of human beings are similar in principle. Nuclear power plants use nuclear fuel to generate endless electricity. This kind of nuclear fuel generally uses heavy water as fuel, and the utilization rate of nuclear fuel is only very high. low level.

Therefore, after many nuclear power plants have finished generating electricity, there are still many radioactive substances in the spent nuclear fuel, which must be strictly recycled. Once leaked, it will have a huge destructive effect on the environment.

The fuel used by nuclear fusion reactors is seawater. Each ton of seawater contains 40 grams of heavy water. The international price of one gram of heavy water is US$10, and the price of heavy water contained in one ton of seawater has reached US$400. The role of nuclear fusion is not only 100% The heavy water in the seawater is used, and the deuterium in the seawater can be perfectly used to produce the fusion effect.

The resulting energy is amazing. The energy released by one liter of seawater is equivalent to the energy of 300 liters of gasoline.

Once humans develop nuclear fusion and can perfectly control nuclear fusion, seawater is the best fuel, which can permanently solve human energy problems.

Once the nuclear fusion technology is completed, it will have a devastating impact on Yuta's bio-oil. If Ross develops nuclear fusion technology and uses this technology to generate electricity, he will lose his job.

As a super genius in the Marvel world, Ross is well aware of the development of nuclear fusion technology. Designing this kind of nuclear fusion reactor has long been no problem for Ross. He has stored many designs of nuclear fusion reactors in his mind. plan.

A nuclear fusion reactor has never been developed, except for the impact on bio-oil once this technology is completed. Most importantly, there are still problems with materials, and there is also the problem of perfectly controlling the operation of nuclear fusion reactors.

Nuclear fusion technology has very high requirements on materials. During the fusion process of nuclear fusion reactors, the temperature generated reaches an ultra-high temperature of millions of degrees and tens of millions of degrees, which is almost equivalent to the high temperature of the sun's core. In addition to the high temperature, the process of fusion produces super-intensive pressure. It is not something that ordinary materials can bear.

Yuta's atomic compression technology produces steel and mixed materials that can withstand the terrible energy of fusion reactions. Yuta has the ability to manufacture various parts and chips of nuclear fusion reactors, as well as generator sets.

However, in terms of the high temperature resistance of the reactor, Yuta still has technical problems.

No material can withstand the ultra-high temperature generated during nuclear fusion, even materials produced by atomic compression technology cannot withstand the super temperature of millions to tens of millions of degrees.

To solve the problem of high temperature resistance, Yuta Company must develop an absolute temperature-proof material. This kind of material can only be studied from the aspect of atoms, and the transfer of heat is through the mutual transfer between atoms.

As long as the transmission of heat is interrupted, an absolutely temperature-resistant material can be produced. This material is absolutely immune to heat, just like plastic cannot transmit electrical energy and is absolutely immune to electricity.

It only took Ross one week to design the nuclear fusion reactor, and he completed the design of the nuclear fusion reactor in one week, with more than 1,000 densely packed design drawings. The complexity of making a nuclear fusion reactor is beyond human imagination.

The space shuttle with the highest gold content in human science and technology uses about 100,000 parts, while the nuclear fusion reactor uses as many as 500,000 parts. It is the most complicated human being. A high-tech product with the most parts.

If this kind of reactor is built by ordinary methods, the resulting nuclear fusion reactor is estimated to be as tall as a building. After Yuta Corporation develops nanotechnology, various parts can be miniaturized. Using nanotechnology, the nuclear fusion reactor manufactured can be large or small. Larger ones can be produced in a size of 100 meters, and small ones can reach the size of a table.

After designing the nuclear fusion reactor, Ross provided the plan to the country and asked the country to find various parts suppliers to produce and purchase these parts. The parts with the highest gold content, such as temperature sensors, various processing chips, and various reactor components The manufacturing materials are manufactured by Yuta Company itself.

The core components are manufactured by Yuta Corporation itself, and other companies around the world are allowed to manufacture them.

Ross himself invested in the research of high-temperature-resistant materials for the most important reactor of nuclear fusion technology.

How to come up with a material that is absolutely resistant to high temperatures gave Ross a bit of a headache.

Under the simulation capability of Huaxia No. 1, Ross tried to use the atom compression technology to decompose various ceramics, asbestos, and glass fibers into atomic states, and then compress these high-temperature-resistant atoms into a super material in the atomic state .

Under the simulation of the computer, the high-temperature-resistant material produced is indeed terrifying, and can withstand high temperatures of 100,000 to 300,000 degrees. If it is applied to other fields, the performance of atomic compression insulating materials is completely sufficient.

But for nuclear fusion reactors, the performance of this high-temperature-resistant material is too poor to withstand the super-temperature of nuclear fusion.

Ross was a little worried for a while. If materials that are absolutely immune to high temperatures cannot be produced, fusion reactors cannot be manufactured, and the development of nuclear fusion technology will become empty talk.

Difficulty excites Rose, and any challenge excites a genius.

In order to solve this problem, Ross turned his attention to various meteorites searched by Yuta Company from the seabed. Ross wanted to find a new kind of atom by studying the alien substances and elements in these meteorites.

Ross once again showed his assiduous spirit and concentrated on using the supercomputer to analyze and research each meteorite.

Through Huaxia No. 1's super analysis and calculation capabilities, the elements and atomic composition of the meteorite were analyzed by Ross.

In one day, Ross deciphered hundreds of meteorites and studied these implicated stones, allowing Ross to discover several substances that the earth does not have. However, Ross did not make any breakthroughs in terms of high temperature resistance.

To decipher the 100,000 unearthed meteorites, Ross will need to work for several years to complete all the work.

In desperation, Ross asked Huaxia No. 1 to use the method of exclusion to identify these meteorites, and asked Huaxia No. 1 to scan these meteorites first to identify the age of the meteorites, starting with the oldest meteorites.

Huaxia No. 1, using its amazing scanning and computing power, began to scan all the meteorites.

The age of most meteorites is between tens of millions and hundreds of millions of years, some meteorites are more than 1 billion years old, a few meteorites are more than 2 billion years old, and some rare meteorites are more than 3 billion to 4 billion years old. .

Scanning these meteorites and judging their lifespan will generate super powerful data. Even Huaxia-1 will need some time to analyze the lifespan and atomic composition of these 100,000 meteorites.

Rose suppressed his temper and waited patiently.

A whole day passed, and 100,000 meteorites were sorted by Huaxia No. 1 according to their lifespan.

Among them, dozens of meteorites have a life span of more than 4.8 billion years. They are almost as old as the earth, and some meteorites have a life span of more than 5 billion years. There is no doubt that these meteorites do not belong to the In the solar system, the sun only exists for 4.8 billion years.

These meteorites definitely come from other stars, or galaxies.

Ross was extremely excited, and focused on studying these dozens of meteorites. Among these meteorites, there was a meteorite with an extremely large mass. It was only the size of an egg, but weighed more than 330 kilograms.

This black meteorite has a lifespan of 5 billion years, and its density and mass are completely different from those in the solar system.

The appearance of this meteorite is smooth. In addition to its high density and mass, it is also harder than diamonds. Judging from its appearance, it should be caused by high-temperature combustion.

This kind of peculiar meteorite should be the abandoned core after the burning and death of the star. In astronomy, it may be called black dwarf, brown dwarf, brown dwarf.

Ross has never seen this kind of strange meteorite, but after identification, it does not contain any elements, and all flammable substances do not exist. There is no doubt that this is definitely the core of a dead star. No one knows this kind of meteorite How did it come to the earth? Maybe after its main star died, it was swallowed by a black hole, and as a result, it fell apart. In the long time and space, it flew to an unknown direction, and finally came to the earth fortunately.

Human beings have never discovered white dwarfs and black dwarfs, because it is extremely difficult to observe them. Human technology cannot observe supernovae hundreds of thousands of light years away. It is normal that these substances cannot be found.

The mass of the white dwarf is equivalent to 1.44 solar masses, and the mass of the brown dwarf is equivalent to 5 to 9 Jupiter masses. The mass of the earth is equivalent to 1/318 of Jupiter.

Calculated according to the mass of this meteorite, it is more than 1000 times the mass of the earth, which is equivalent to the mass of 3 Jupiters. It is not a brown dwarf, but a black dwarf that humans have never discovered.

The discovery of black dwarf meteorites is extremely important to human beings.

The sun is also a star, and the high-temperature core generated during combustion reaches 15 million or even 50 million degrees. At this high temperature, almost any substance will turn into a gaseous state.

A black dwarf is a dead star, the material left by a cooled white dwarf. This incombustible meteorite has actually withstood the super temperature of the star when it burns, and it contains the secret of absolute high temperature resistance.

Ross held the black dwarf meteorite as if Columbus had discovered the New World, and his hands trembled.

Not because the meteorite weighed hundreds of kilograms, but because I was too excited. It is estimated that there are not many meteorites from outside the solar system. It is estimated that there are not many such meteorites on the earth. For Ross , even smaller than the probability of winning the 100 million yuan jackpot. (To be continued.)

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