Naturally, the construction of aircraft carriers will not be achieved overnight, however, news of diamond-shaped aircraft carriers is constantly coming out.

First of all, his energy sources are actually distributed design. Because of the use of electric motors as the core, the fuel of any aircraft carrier node can be shared through a single cable, ensuring that there will never be a "short board" in the entire combination.

Now, Tanuki's Super Solar Sail is at the pinnacle of the power engine, and everyone is thinking about it. The energy replenishment of the diamond-shaped aircraft carrier does not need to be so black technology, but it can do something.

On a standard sea level, there will be 1k of light per square meter, and a diamond-shaped aircraft carrier needs 10,000 k of power when cruising, and theoretically it can be calculated that the theoretical maximum power of 2,500 square meters of surface area is 2,500k.

However, even if the monocrystalline silicon with a relatively high conversion rate in the industry is used, its conversion rate is only 25%, so the full surface of the monocrystalline silicon photovoltaic is suspicious to obtain 625k power, and it takes 16 hours of light to meet the one-hour cruise.

Monocrystalline silicon is an expensive material, and it is impossible to put it on the deck of a fighter that needs to take off and land, so the idea of a diamond-shaped aircraft carrier began to explode again.

It uses a metal mirror to project light energy onto the two sides of the diamond, which is surrounded by monocrystalline silicon solar panels that are two meters high. This is equivalent to increasing the light energy by more than ten times, saving more than ten times the number of panels, and making it possible to generate electricity on the deck.

Users on GitHub praised Piercar's creativity, and they increasingly liked the aircraft carrier project that the whole world could participate in, affectionately calling it the "World Aircraft Carrier".

Some users have suggested that since the deck surface is all used, why use the same scheme to use the surface of the side side?

What a great idea! Reflective metal is not expensive anyway. After such a transformation, the solar power generation power of the diamond-shaped aircraft carrier has reached 1000K, and it only needs 10 hours of light to carry out a one-hour cruise.

If all the energy can be stored, 10 days of light can make a 560-kilometer trip, and a month-long energy storage can make a 1,680-kilometer trip. For aircraft carriers, this energy supplement really greatly reduces operating expenses.

A solution for energy storage has also been found – a solution imported from Piercard's long-time customer, the Japanese, to electrolyze seawater into hydrogen and oxygen, which is stored as a compound and then released through a recyclable reaction when used.

Oxygen can also be stored for use by one's own submarines, and if the customer has it, the navy that is ready to have an aircraft carrier should have it, right?

This places new demands on the design of gas turbines, which must be fueled with hydrogen.

This is a warship for sale, and if you use it yourself, it's simple, and you can use the super battery directly.

However, even such a compromise has surprised the warship design community, who have raised various doubts, but Piercar has said that "technically there is no problem, we have passed the technical verification reads();." ”

The special steel used in the aircraft carrier, India patted its chest and said that it could order from them. Since the Indians had the plan to build their own aircraft carriers, they have worked hard for these strategic materials, and now they have finally paid off, and they can actually provide high-grade materials to third parties, which is really not easy.

As for the problem of the catapult, which everyone is concerned about, it is not a problem at all, and the vertical take-off and landing platform of Piercar has solved the problem perfectly? 20 million sets, can you still buy strategic materials in strategic materials at a cheaper price - steam catapults or electromagnetic catapults?

Catapults were so expensive that even the British's own new aircraft carriers, which invented the steam catapult, did not use catapults, but instead installed seesaws for gliding jumps, which were said to reduce the take-off distance by two-thirds.

It depends on the demand, Li Xiantai thinks that there is no need for a seesaw with a vertical take-off and landing platform, but what if the other party also likes a seesaw like the British? It can also be rationed, and the additional cost is very small.

The advantage of the Infinity is that it can be reassembled, and the army with a 9-unit formation can completely stitch them all together, and its runway can be metamorphosed to 450 meters long, and even the 274-meter take-off and taxi distance of the F15 can be easily satisfied.

The cost of take-off and landing performance, seaworthiness performance, and operating expenses, the diamond-shaped aircraft carrier has made great progress and has become a major event in the naval industry.

Now that the Greeks were on their honeymoon with India, the Pilcar Company had made a secret agreement with the Indian government to establish artificial islands in the high seas of the Indian Ocean, which could serve as a supply center for the Indian army.

In fact, this is Li Xiantai's Blackbird Honeydew Factory, which uses the vast ocean to receive light, and the magical floating materials of Green Island Technology itself are a powerful tool for absorbing solar energy, and in the photosynthesis of plants, they will convert a large amount of carbon, hydrogen and oxygen into fuel, which is stored in the core of the artificial island.

The buoyancy of the artificial island can be changed at any time, and after reducing the buoyancy, the artificial island can dive into the water for dozens of meters to avoid the peeps of hostile forces or idle people.

Li Xiantai will send a V1 strategic reconnaissance plane to monitor the situation of the supply center at high altitude and direct the sinking and floating of the artificial island.

Every 100 square meters of artificial island can be synthesized into 1 ton of blackbird honeydew per day, and a standard artificial island of 100 x 100 meters can be synthesized into 100 tons. At the current price of 1,000 US dollars per ton, this is also a project worth 100,000 US dollars per day.

Li Xiantai plans to build 10 standard energy islands in the initial stage, and in 10 days, 10,000 tons of Blackbird honeydew can fill the 10,000-ton diamond-shaped supply ship he designed.

This diamond-shaped supply ship also uses a super all-through deck, on which planes can be taken off and landed directly at special moments. The side length of this diamond-shaped supply ship is 150 meters, and the combination of the two is a large aircraft carrier.

It can dock directly with the last ship of the V-shaped formation, and directly replenish the fuel to the aircraft carrier formation through the oil pipeline connecting all the diamond-shaped aircraft carriers.

In addition to fuel, containers can be stacked on the deck of the supply ship. There will be whimsical designs here. It is impossible for an aircraft carrier to have a crane to operate the container, and Li Xiantai designed a wheelbarrow that can take on the heavy task of moving the container.

It is impossible for a single unicycle to have such power, but 12 of them working together are suspicious to do so. What's more interesting is that this kind of small porter can also complete the task of carrying small pieces after completing the big task, and the two * wheelers work together to carry small boxes like a sedan chair.

Big or small, this is the soul of this intelligent porter reads();. It can even be used as a means of transporting people. In the 9-unit formation, the distance from one end of the V to the other is 400 meters, which is not short, and the self-balancing "unmanned" wheelbarrow has become a popular public transport system on the aircraft carrier.

In a 9-unit aircraft carrier formation, there must be at least such a set of 12 wheelbarrow porter systems, and it will obviously be more efficient to have more equipment.

Such an intelligent logistics system will obviously greatly reduce the number of aircraft carrier crews, and will also greatly reduce the consumption of materials, which is a great blessing for non-local tyrant countries.

What's even more amazing is that the operation of the aircraft carrier can only be carried out in any unit, realizing the distributed control, and after the merger, the 9 helmsmen can rest 8. Air defense, anti-submarine communications, and so on, all these crews can be shared.

If you don't include fighter pilots and logistics support, the entire aircraft carrier formation can be controlled by 30 elites to run.

In this way, the crew is saved, and the military expenses are saved.

Based on the platform of diamond-shaped battleships, missile destroyers can also be derived. In order not to destroy the super all-access deck, all vertical launch systems are arranged on diamond-shaped sides, four sides, with a launch tube every 2 meters, a total of 100 rounds, and the firepower of firing at the same time is even more than that of the 8000-ton Arleigh Burke-class missile destroyers.

There is a mystery in the launch tube, because it is a saber-toothed tiger missile, which naturally inherits the advantage of free combination of joint strikes, and can be combined into a pair of air-to-ship, ground-to-ground, anti-submarine and anti-tank multi-purpose, and can also be freely switched between several ranges in the short-range and medium-range range, which makes the commander feel happy.

GitHub netizens said: The design concept of the saber-toothed Tiger missile is really drunk, if it is really feasible.

Another netizen said: All diamond-shaped battleships can form part of an aircraft carrier, even supply ships and destroyers, this is the most terrifying design, right? Why didn't anyone think of it before?

In fact, the development of battleships is like evolution, everything has to rely on the previous design scheme, such an expensive combat unit, no designer is willing to take risks, just like the pattern carved on the jade, because the material is too expensive, the possibility of creativity is small, there are only a few kinds of coming and going, far less abundant than woodcuts.

For some reason, Piercar dared to break with tradition. This is due to Li Xian's suspicious imagination in forming an inherent enchantment, many things he has already "seen" in the enchantment and knows its feasibility.

In the package of solutions for aircraft carriers, the response plan of the aircraft carrier nemesis - nuclear submarines is indispensable. Li Xiantai intends to develop an anti-submarine patrol aircraft based on the V7 platform, which can accommodate 100 sonar buoys.

The detection distance of each sonar buoy is about 1 nautical mile, and in the process of advancing the aircraft carrier, the anti-submarine aircraft can spread the buoy all the way, which can open up a safe passage of up to 200 nautical miles for the aircraft carrier formation.

These are normal indicators, and the killer feature of this expensive $300 million aircraft is the use of Zero materials to create recyclable sonar buoys.

In the process of launching, the zero material wrapped 8 kilograms in it like an olive, slowly fell into the sea, released sonar, and let it down to the working depth, and the buoyancy of the olive was set to happen to be lurking in the water, only the antenna was exposed to the sea, reducing the chance of being seen by the enemy's satellite reconnaissance aircraft.

Only when it was time to recover did the olive surface, put away the antenna, and waited for the anti-submarine aircraft to stretch out its claws and grab back its own capsule like an eagle catching a chicken.

When the aircraft carrier is berthed, it can sprinkle a circle of buoys on the periphery to guard the waters within a radius of 10 nautical miles, which is a good companion for the aircraft carrier to camp and travel at home.