Now outside Country C, there are four electromagnetic silos in operation, namely two in Country R, ​​one in Western Central and one in Western Central.

When the electromagnetic silo is sufficiently powered, the emission efficiency is very high, but in actual operation, due to the limitations of production and quality inspection capabilities, the utilization rates of these siloes have not been filled.

Together, the average daily output of low orbits is 5.2 tons.

It seems that there are many wells in R country, but the wells in 4.1 meters, and the single delivery capacity is close to 40 tons. The average daily average of the two is only five tons, which is obviously not enough.

The second is the one in Are, with an average daily output of 3.2 tons. Considering that the participants are more affected by strength and religion, it is already good to reach this level for a single 3.5-meter well.

The worst is the slow Western Central.

Although it was slapped in the face many times and "accelerated" many times during the construction process, the pace of Western Central China is relatively slow. Even if the well is well built, the utilization rate is very limited. The average daily launch volume of this well will only reach an average daily release of 2.5 tons by the whole month of May.

c All outside the country have added up, and the average daily delivery volume is not up to 11 tons, which is even worse than the efficiency of the non-maintenance cycle of a single 3.5-meter well in the country.

But there is nothing to blame. Their industrial strength is there, and the system efficiency problem, and if they have to deal with monsters, they really can't find so much resources to invest in this area.

After the third phase of material hoarding began, ground operations had little to do with the life and death of the space system. Country C relaxed the supervision of some cooperation terms, allowing them to earn some extra money from the Doomsday Space Station.

Money is useless in this era. What gives international exchange materials value is industrial production capacity.

The current debt scale of a country does not have the financial resources to repay funds to the outside world. The transaction value is mainly high-end industrial products and tickets for Doomsday Space Station.

The space systems of a and c are very different in various aspects.

Country C also sold a wave of tickets, but it did not involve capital flow. These people would not have any status advantages when they went to heaven. Instead, they would be controlled by the management of the Moon Palace. The attractiveness of the multinational tycoon is actually relatively limited to the consortium and multinational tycoons.

Country A's doomsday space station has a heavy commercial nature, but it is limited by its aerospace deployment capacity and has a very small number of rated personnel.

At this stage, there are many people who are willing to buy a ticket with more than one billion or even billions of A-coins. They are happy to launch a wave of expansion plans for the space station and have planned a small number of "elite" quotas... In fact, they are just doing odd jobs in heaven.

The money has been obtained, but the delivery capacity is not enough. It is natural to find a way to make up for it from the electromagnetic emission system.

By June, 80% of the delivery capacity of the four electromagnetic silos outside of China C would be used to support the construction of the Doomsday Space Station, but careful calculations show that the delivery capacity of eight tons per day is not much.

The standard of permanent space residence currently used by country c is divided into several components.

Hydroelectric oxygen is a system.

Each quota requires a 0.8 cubic cubic oxygen recirculation capacity per day, and ordinary people on the surface have 0.5 cubic cubic per day. In addition to filling the extra parts, the space personnel need to prevent osteoporosis and exercise, the rest are reserves, accident response capabilities, etc.

The way to obtain oxygen in space is mainly decarbonization of electricity, including electricity consumption in daily life, which produces a hard power indicator here.

The hydrogen and oxygen ratio electrolyzed by water does not have a balance, and are mainly used to supply track adjustment engines. However, the nuclear-powered engines of the Drought-Battle series only heat hydrogen and do not participate in oxygen, so the Yuegong will produce more oxygen. When replenishing water resources to the two stations, they will carry liquid oxygen at the same time. This part mainly replenishes a small amount of gas lost in daily switch airshades, as well as the losses in the maintenance and production work in the station.

The combined hydroelectric and oxygen systems produce an average equipment weight of about seven tons.

Next is the infrastructure part.

The infrastructure here refers to rigid survival, planting, activity needs, including housing, rest and entertainment, etc., which are calculated per capita. In order to meet the conditions of permanent residence, the sense of space is much larger than that of traditional spacecraft, so the weight is relatively large.

Without considering industrial development conditions, this item accounts for the largest proportion, with an average weight of 21 tons.

Then there is emergency reserve.

Emergency reserves refer to the fact that due to solar activities, sometimes space stations have to reduce their power generation capacity. The reduction in power generation capacity is likely to affect food output.

To lengthen the timeline, there will always be ten months or even longer in a hundred years, which requires food replenishment ability in a low-yield environment.

Of course, the three-station system in Country C has monthly material support, but the design needs to be considered when only this site is left.

Not to mention the details, this reserve requires a counterweight of 3.5 tons per capita. Even if the Doomsday Space Station in Country A is unable to reproduce, it requires at least a reserve of 1.8 tons.

Finally, there are maintenance capabilities and development capabilities, and the two must be separated.

The project in Country A was launched late and there was no time to pursue development capabilities, so at least it must have the self-sustaining maintenance capabilities of the space station, space suits, welding tools, welding materials, etc. included.

According to the standards set by Country C, the minimum delivery volume of this part of the per capita materials and tools is two tons. This weight does not include the sheet profiles consumed for maintenance, and can only be removed from the east wall to repair the west wall.

After meeting the minimum standard, an additional three tons of materials are required based on fifty years of self-sustaining capacity.

The part of developing capabilities accounts for the largest proportion in the C-country system.

A per capita metal reserve is required to reach 16 tons! The number is so large that the finished products of various equipment account for a large proportion, with the reserves of metal ingots, oxide powders and plates accounting for only one-fifth of the number.

In addition, there are other types of material reserves, such as food-grade plastics, PVC materials, rubber, etc. Many of them have no source in space. Therefore, although the amount is small, considering the reproduction needs of astronauts, the reserve requirement is quite large, and the per capita reaches 14 tons.

The development capabilities also include per capita aircraft, which is not much. Based on the current configuration of aircraft, the average value is only 1.8 tons per capita.

Then it can be calculated that for every quota added in Country C, there are 68.3 tons of various equipment and emergency supplies in the sky. This figure also adds daily consumption and circulation of water, food, and clothing, a total of 69 tons.

6,700 tons of materials will be sent to the sky for every 100 places, and as mentioned just now, Country C has a total of 530 places!

In fact, it took more than two years and did not reach this number, because the fuel consumption between the earth and the moon is particularly large, and the effective delivery of materials is relatively limited. However, the Moon Palace has built a certain material production capacity, so there is no big problem in terms of metal and glass reserves. Just ensure that the Moon Palace's production capacity is greater than the new demand for the increase in population.

According to this system, it is estimated that the Doomsday Space Station in Country A has reached the 50-year residence standard and abandons subsequent development. At least 34 tons of materials per capita are required.

The materials sent on the track will also cause certain construction losses during the docking and building the space station, mainly welding gas and tool damage, so one ton is added.

So what standards do they use?

In fact, the first second version of the country A plan was to build a space station through a construction platform, with a space station volume of 2,000 tons, and only a dozen quotas. In terms of per capita resource weight, it is higher than that of Country C.

However, considering that in order to limit the possibility of future space wars, Country C kept the bulletproof cloth and brick wall confidential, while traditional materials were less efficient in building space stations (requiring more complex structures), overall, the resource standards of the two were at the same level.

It will be different after the quota is increased.

Four electromagnetic transmitters outside Country C can provide eight tons of supplies every day. In addition, the traditional rockets from Country A and Western Central, the total is only ten tons, or a little more than a little more.

According to the standard of nearly 80 tons per person, only one person can be paid in eight days, and only more than 40 tickets can be added in a year.

It doesn’t matter if the main stage has been completed, the problem is that the main body of the Doomsday Space Station has not been completed!

According to some rumors, people in the aerospace system helped to calculate the current standards for the Doomsday Space Station. The per capita material volume should be around fifty tons, which is enough for decades, but it is definitely not enough for astronauts to reproduce.

In fact, as long as you understand what Country A is doing, you can react when you see this number. These guys may eventually become space refugees and ask Moon Palace for supplies every day.

We did not underestimate anyone, but lacked a production system. This little material could not cope with the environmental challenges that had lasted for dozens or hundreds of years in space.

But it seems unlikely to let them die. After all, the people above have sworn to protect human civilization. If they don’t even save space refugees, can they still expect them to counterattack and return to their home planet?
Chapter completed!