After the Kunpeng Space Station completed the construction of the first-level microgravity section, it was combined with the super kinetic energy storage rotor that had been waiting for several months to achieve stable power supply in the synchronous track at the end of February.

Here we emphasize the height of the orbit, because the higher the orbit, the lower the proportion of darkness, for example, the synchronous orbit has only one hour without light, and some of the higher positioning latitudes will be blocked by the main star for a shorter time.

The Kunpeng Space Station is located in a synchronous orbit, with a short night time. The weight of the 10-megawatt kinetic rotor is not particularly heavy, but there is redundancy in the design. In the future, the energy storage limit can be increased by adjusting the upper speed limit and sacrificing a little life. The final weight still requires a special rocket to send it.

The rotor and the new core section are separated from the rocket, the rotor is installed, and the rocket is returned to the rocket. The project volume is quite large and will not be completed until March 10th.

Among them, the return of the rocket is also a standardized process recently. This type of heavy cargo rocket dedicated to the Kunpeng Space Station is made of the pile of engines and other components that have captured the asteroids before. It can put 100 tons of cargo onto synchronous orbit at a time, and of course, it will cost dozens of tons of fuel to travel. There are three sets in total. The latest flaw inspection shows that the three sets can carry about twenty more times together.

A new core section is also added to the rotor.

Not counting the main activity area of ​​centrifugal gravity simulation, the column section of Kunpeng Space Station is divided into Death Scepter 2, a 10-megawatt energy storage rotor and momentum wheel module, the core compartment of the gravity simulation area (the slide entry and exit gravity area), the experimental column section and the berth section.

The new core section is inserted between the second unit and the momentum wheel, which is mainly used for the expansion of subsequent power generation facilities, solar arrays, and head berths.

At this point, there is also a certain amount of material reserves. The second batch of personnel from Kunpeng Space Station can be moved in, or will be transferred from the future space station.

Country A's human civilization seed space station plan was also announced when the second batch of personnel took turns to the sky.

Its plan can be described in one word: create wonders.

The so-called development steps are completely unexplained.

The superconductors in Country A have barely entered the mass production stage. In terms of permanent magnets, they only opened permission to dig their own rare earths after the monster crisis, because the last permanent magnet company had gone to Country C before, and the upstream and downstream industrial chains have not yet formed, and the technological power has even reached even more.

Under such a basis, it is impossible to launch your own electromagnetic orbit emitter.

Their method is to build rocket engines.

When introducing the Rockets, the concept of characteristic pulse has been mentioned many times, which is the most important energy efficiency indicator of the engine.

If the technical level remains unchanged, the larger the characteristic impulse, the greater the thrust, it will inevitably lead to a decrease in thrust.

The principle is briefly explained. The higher the specific pulse, the higher the temperature of the fuel mixing chamber, which leads to the need to limit the mixing amount to control the temperature to maintain the engine operation.

Many laymen just look at thrust and feel that the new engine technology is not as good as decades ago, and it is a manifestation of lack of knowledge.

For example, a single-soldier rocket engine that only needs more than ten seconds of working time has a greater thrust than that. No one has ever praised it for making this thing.

After packing the aerospace industry to a private company, a country a country made a large number of damage experiments to choose between thrust and characteristic shock to obtain the engine, and then landed the engine according to the launch needs. This year, the three-core cascaded model has stacked the launch weight to more than 1,500 tons, and can deliver nearly 70 tons of loads into low orbit.

In addition, through the merchants' pursuit of ultimate profits, A-China Aerospace has also mastered steel-skinned rockets and first-stage flea rocket technologies.

Steel-skin rockets are very special, which is an achievement of the idea of ​​limiting the launch cost. They do not require an internal skeleton structure or thermal insulation. They will cause partial load burnout during launch and don’t care at all. They roll up several millimeters of steel to weld each other into a rocket and a load section shell.

The advantages and disadvantages are very obvious. The advantage is that the cost is extremely low, and the rocket shell can almost be ignored in the total cost. As for the disadvantages, launch failure has become the norm. Even if it develops to this day, it is a 70% success rate that is good for the world.

Flea Rockets are both first-stage rocket recycling technology, but unlike the general recovery from the sea, they are a technology that allows the rocket to fall back to the launch site by flight control.

As mentioned earlier, this technology often makes people misunderstand that the Chinese people have the support of alien technology. In fact, the first stage of the flea rocket will not fly out of the atmosphere at all, because it has not gone out and has not reached the orbital speed. When it falls back, it will not suffer from high temperature burns of nearly 2,000 degrees at the highest point.

But it has to be admitted that as this technology becomes mature, the first-stage rocket can be reused three to five times, and the shell can be used more times through maintenance, which does greatly reduce the launch cost.

Based on the above experience accumulation and unique technology, Country A is really capable of building large space stations without electromagnetic orbit transmitters.

However, Country A previously believed that as humans have a deeper understanding of space, there are too few new technologies that can be obtained through space stations, and investing huge amounts of money to build new space stations is wasteful, so it is better to get free jobs from other people's families, so it has not launched a new generation of space stations.

Now it is different. Level 2 monsters appear continuously, and finally shatter the fantasies of most people. The big merchants are finally willing to pay.

As mentioned earlier, what the space complex proposed by Country C is the most unacceptable thing for Country A to accept is military integration.

As for merchants, the Kunpeng number in Country C also has something they cannot accept - equality.

Kunpeng adopts the "resource point" resource management trial method, and its daily needs of internal personnel are distributed equally according to effective resources. To put it bluntly, it is a utopian environment.

This means that even the world's leading wealthy people may find a few flatterers after entering the Kunpeng Space Station. In principle, they will not receive any preferential treatment in terms of resources or living environment.

The dozens of people in the top country a occupy the total resources of even the world's total of 8 billion people. By percentage, people are not enough to describe it. More than half of the overall output of countries is left behind. Can they accept living with ordinary engineers and scientists as equivalent?

What’s even more tragic is that even if one or two of them can accept it, it’s useless, because according to the Kunpeng Space Station’s open development plan, there will be no big shots until the surface industrial production chain is completely paralyzed. The early arrangements are engineers, scientists and young scholars.

So after the second-level monster appeared continuously, the big guys of A, who felt that they also needed to find a way out, began to push the A, to launch the space station plan.

So what happened now is that Country A plans to build a superspace station with a total tonnage of more than 2,000 tons within one and a half years.

Two thousand tons are equivalent to five times the weight of the active international space station, because it does not require such heavy scientific research tasks, the effective volume ratio and material storage capacity will be much larger, enough to provide a long-term life of about twenty people.

Then the question came.

Some astronomical enthusiasts and data emperors took out a set of ground photos of the future space station, and a small number of public information of the electromagnetic orbit launcher rocket translated from the public. After a sudden analysis, the future space station, which uses some new type of compressive material, has better content space than the traditional column space station. Country A's plan is completely wasting resources.

Some netizens also pointed to the core, saying that the chaebols were already thinking of running away. However, this kind of debate was more intense, because most people in China felt that the chaebols had the ability to build a safer, more farther from the surface, and more sustainable and more secure underground shelter, and there was no need to go to the space station to wait for death.

In fact, the underground shelter is of course under construction, but the chaebols adhere to their past investment experience and know that eggs cannot be placed in the same basket will not prevent them from investing some resources on the space station.

However, these are not the key points. What is most questioned is the shape and functionality of the space station in A.

A National New Plan space station intends to use more than a dozen cabins to form a polygonal structure, and after the personnel are in place, it can be turned through an additional small solid-state rocket.

Whether it is the structure or the rotation start method, it makes people feel fascinated. Isn’t my big country the most developed country on the planet? Why did I design such... um... inferior toys?

Then someone came out to give everyone a popular science knowledge, telling everyone how much preparation work is needed, how many manufacturers cooperate, and how many technical difficulties it is necessary to overcome to build a structure like the Kunpeng Space Station.

But there have always been many popular science words, and no one reads them in the current network environment, so people continue to criticize the department that plans.

Country A is extremely efficient this time, and within four days, a modification plan will be proposed.

It became like C country, first building an intermediate platform, then assembled parts, and created a rotating space station with a more shaped shape like that.

The new plan calmed the anger of most of the silly people, but those who are a little more informative, and those who can read it themselves and use translation software to read the official page of China's aerospace department still scoffed at the modification plan.

There are several key issues here, and the official government of Country A did not give a reasonable explanation.

First, production capacity.

Since the Monster Crisis, Country A has increased its military expenditure significantly, which has actually promoted the recovery of the industrial system. However, compared with the industrial monster in Country C that produces more than one billion tons of steel every year, this new production capacity is completely insufficient to support a huge aerospace industrial system several times higher than before.

Second, launch capability.

Country C used electromagnetic orbital launchers to simplify the rocket structure and simplified the inspection process. With the full support of Country R and the limited cooperation of Western Central, we can support a three-space station (including the old space station, regardless of the moon palace). Even if Country A can use the power of Western Central to a greater extent, the complexity of traditional rockets will be higher. How can we ensure the frequency of successful launch?

Third, materials.

From the pictures taken by astronomical enthusiasts to conduct reverse structural analysis, Country C obviously has mastered more than one alien material technology. Country A, which has not conducted space cooperation with Country C (restricted by the bill), will inevitably consume more payloads if it wants to create a space station of the same level as Country C, which means that the demand for the first and second conditions will be further increased.

In fact, before the negotiations to upgrade to space un are launched, Country A will abolish relevant bills and find Country C to cooperate with space stations. Based on the moral concept of the common destiny of mankind, it is really possible to obtain production quotas for brick walls and bulletproof cloth.
Chapter completed!