The toy factory is transforming, are you transforming into a military factory?

For Chen Yuan now, he has a clear understanding of his abilities and conditions. He is well aware of his own qualities and strengths, which are important assets for him in the future.

At the current stage, Chen Yuan has developed a strong interest in interstellar exploration. He is full of curiosity about the mysteries of the universe and the unknown areas between the stars. This interest is not just a temporary enthusiasm, but a deep-rooted love.

Chen Yuan is eager to personally explore those unknown planets and uncover the mysteries of the universe.

He understands that to achieve this goal, he needs to continuously improve his abilities and accumulate more knowledge and experience.

In addition to the accumulation of academic knowledge, Chen Yuan also actively participates in various practical activities, such as participating in astronomical observation activities, participating in scientific research projects, etc., to enhance his practical ability and teamwork ability.

He believes that only through practice can one truly master and apply the knowledge he has learned and prepare for his own journey of interstellar exploration.

Chen Yuan also realized that interstellar exploration is not an overnight undertaking and requires long-term efforts and perseverance.

He is determined to maintain his passion and curiosity for the unknown, continue to learn and improve, and work hard to realize his dreams.

Over time, Chen Yuan gradually accumulated rich knowledge and practical experience. His efforts were recognized and he became a highly respected scholar and explorer. His name is closely associated with interstellar exploration and he has become an authoritative figure in the field.

Chen Yuan is not satisfied with just staying at the theoretical level.

Chen Yuan successfully realized his dream through a clear understanding of his abilities and conditions, as well as his strong interest and love for interstellar exploration.

Not only did he become an outstanding scholar and explorer, he also made important contributions to mankind's understanding of the universe.

In order to achieve this goal, Chen Yuan began to adjust his focus and put more energy into the Luan Bird Mothership.

This magnificent mothership is far from comparable to a spaceship in the ordinary sense. Its design and functions go beyond the concept of a traditional spaceship and are more like a giant space station floating in space.

It is equipped with the most advanced scientific research equipment, which can conduct deep space exploration, interstellar physics research and astrobiology experiments, providing scientists with an unparalleled research platform.

In addition to high-end scientific research facilities, this mothership also pays special attention to the quality of life of the crew.

It is equipped with a complete set of comfortable living facilities, including rest cabins, entertainment areas, fitness centers, and even an ecological park that simulates the earth's environment to ensure that astronauts who sail in space for a long time can maintain a good physical and mental condition.

This mothership was designed with long-term interstellar travel needs in mind. It has a durable energy supply system and self-maintenance capabilities, and can operate independently for a long time in distant galaxies without the need to frequently return to the base for resupply.

This mothership has become an ideal choice for astronauts and scientists who are eager to explore the unknown universe and pursue the cutting edge of scientific research.

It can not only take them to the distant sea of ​​stars, but also ensure their safety and comfort during the long journey. It is an advanced spacecraft truly designed for interstellar exploration.

The second uncle found Chen Yuan, and the conversation between them was full of surprise and disbelief.

The second uncle never thought that the family business, which was once just a toy factory, would now start to get involved in the manufacturing of aircraft carriers.

This is not only a leap, but also a challenge, but Chen Yuan is full of confidence and expectations for it.

Chen Yuan has a clear understanding of what he has, his love for interstellar exploration and his investment in the Luan Bird Mothership, as well as the transformation of his family business.

The space carrier designed by Chen Yuan is a cutting-edge aerospace platform that uses advanced nuclear power technology and anti-matter engines as its main power source.

This innovative power combination can not only provide the mothership with long-lasting and powerful thrust, but also ensure that it can maintain high-speed navigation and high-efficiency operation during long-term space exploration missions.

The design of this space carrier fully takes into account the needs of future space exploration, and its maximum load capacity is expected to exceed 8000 tons.

This means that it can carry a large amount of cargo, scientific research equipment, and possibly other spacecraft or modules used to establish space infrastructure.

Such payload capacity makes it a multifunctional space platform that can support various scientific experiments, space exploration missions, and even long-term space residence.

The space carrier envisioned by Chen Yuan is not just an ordinary spaceship, it is a highly modular design miracle. This design gives the space carrier unparalleled flexibility and adaptability, allowing it to be quickly and accurately configured and adjusted according to different mission requirements.

In terms of deep space exploration, this mothership can quickly adjust its equipment and systems to meet the needs of exploring the unknown universe. Whether it is necessary to carry a large amount of scientific research equipment or to conduct long-term interstellar travel, this mothership can easily cope with it and demonstrate its excellent adaptability.

In terms of on-orbit services, this space carrier also performed well. It can quickly adjust its service modules according to mission requirements to provide maintenance, fuel supply and other services for satellites in orbit. This highly modular design enables the space carrier to play a great role in the field of on-orbit services.

In addition, as a hub for space transportation, this space carrier cannot be underestimated. It can quickly adjust its internal space according to the type and quantity of cargo to meet various space transportation needs.

Whether it is transporting personnel, supplies, or large-scale space construction, this mothership can easily handle the task and demonstrate its powerful carrying capacity.

This aerospace carrier, with its highly modular design, can be quickly configured and adjusted no matter what mission it faces, showing extremely high adaptability and flexibility.

This is not only an innovation in the design of the space carrier, but also a bold vision for future space exploration, indicating that human exploration in the space field will be deeper and more extensive.

In the original design concept, the space carrier was envisioned as a huge aircraft, with a length expected to be between 500 and 1200 meters and a height in the range of 50 to 100 meters.

This size allows it to carry thousands of fighters at a time. This level of aircraft carrying capacity makes it a true mobile aerial fortress with strong strategic deterrence and combat capabilities.

The design of the space carrier not only focuses on its size and aircraft carrying capacity, but also pays special attention to the performance of its power system.

The advanced power system it is equipped with enables it to reach astonishing flight speeds in the outer space environment, up to Mach 25. Such speed makes it extremely maneuverable and responsive in space, allowing it to reach any location on the earth in a very short time.

What is even more shocking is that the high-speed performance of this space carrier allows it to fly around the earth in just 90 minutes. Such speed undoubtedly gives it unparalleled advantages in strategic deployment and rapid response. Moreover, due to its ability to fly at high speeds, it can easily penetrate any existing air defense network, whether on the ground or in the air, without posing an effective threat to it.

The design of this aerospace carrier, both in terms of its huge volume and its powerful power system, demonstrates the strong potential of future technology. It is a true aerial fortress with extremely high strategic value and Tactical advantage.

The required engines are also very complex.

Air turbine ramjet engines and supersonic combustion ramjet engines are the core power technologies for realizing the aerospace aircraft carrier concept.

These two advanced propulsion systems are critical to the development and operation of space carriers because together they provide the thrust and performance required to operate efficiently and reliably in and outside the atmosphere.

The fuel-air turbine ramjet engine combines the characteristics of traditional jet engines and ramjets and is capable of operating over a wide range of flight speeds, from subsonic to hypersonic speeds.

It generates thrust by utilizing high-speed incoming air to mix and burn with fuel. This design enables a more efficient propulsion effect during high-speed flight.

Scramjets, on the other hand, are specifically designed to operate at supersonic flight conditions.

It can achieve higher thermal efficiency and thrust by directly injecting and burning fuel in supersonic airflow, which is crucial for aerospace aircraft carriers to maintain high efficiency when cruising at high speeds and performing missions.

As a composite aircraft that combines aviation and aerospace technologies, an aerospace aircraft carrier is designed to perform efficient and flexible operations inside and outside the Earth's atmosphere.

In order to achieve this purpose, it must be equipped with a propulsion system that can work stably in extreme environments.

Fuel-air turbine ramjets and supersonic combustion ramjets are key technologies to meet these requirements. They enable aerospace aircraft carriers to maintain excellent performance during takeoff, acceleration, flight, and maneuvering in space.

These two engines are not only the technical cornerstones of aerospace aircraft carriers.

As a clean energy source, hydrogen fuel plays a crucial role in the application of aerospace aircraft carriers.

An aerospace aircraft carrier, as an advanced aerospace platform, has extremely special and demanding energy requirements for its design and operation.

Among the many energy options, hydrogen fuel has become the preferred energy source for aerospace aircraft carrier power systems due to its high energy density, clean combustion products, and small impact on the environment.

The high energy density of hydrogen fuel means that aerospace aircraft carriers can carry relatively little fuel weight, but can achieve long-term flight and high-intensity power output, which is crucial for long-term missions or long-distance exploration.

Secondly, the hydrogen fuel mainly produces water during the combustion process. This harmless combustion product helps reduce environmental pollution and also reduces the potential harm that the aircraft carrier may cause to the surrounding environment during flight.

As the global awareness of sustainable development and environmental protection increases, the use of hydrogen fuel also reflects the aerospace aircraft carrier's sense of responsibility and foresight in environmental protection.

Hydrogen fuel comes from a wide range of sources and can be obtained through methods such as electrolysis of water. This method is not only renewable, but also helps to promote the transformation and upgrading of the energy structure.

The use of hydrogen fuel is not only necessary for aerospace aircraft carriers, but also an important direction for the development of future aerospace technology.

It can not only meet the performance requirements of an aerospace aircraft carrier, but also play an important role in environmental protection and sustainable development.

Flight operations on large aircraft carriers are an extremely complex and challenging task.

Due to the huge size of the aircraft carrier and the limited length of the flight deck, coupled with the size and weight of the carrier-based aircraft, taking off and landing on the aircraft carrier has become a difficult skill.

Pilots must undergo rigorous training and long-term practice in order to master the skills of flying in such a unique environment.

The flight deck of an aircraft carrier is usually much shorter than the runway of a land airport, which requires the aircraft to achieve sufficient lift in a short period of time to achieve a successful takeoff.

At the same time, the pilot needs to accurately control the aircraft in a limited space when landing to ensure that the interceptor rope on the deck can be safely hooked. This process places extremely high demands on the pilot's reaction speed, judgment and operating skills.

Secondly, aircraft carriers will be affected by waves, wind direction and other natural conditions when sailing at sea. These factors will have an impact on flight operations. Pilots need to adjust flight strategies according to real-time environmental changes to ensure flight safety.

Meteorological conditions and space constraints on aircraft carriers also pose additional challenges to flying.

On a small deck, pilots must always be aware of their surroundings and avoid collisions with other aircraft or ship structures.

At the same time, the weather on the aircraft carrier is unpredictable, and severe weather such as strong winds and haze may pose a threat to flight.

Flying on a large aircraft carrier not only requires pilots to have superb flying skills, but also requires them to remain calm and focused in a complex ocean environment to deal with various emergencies.

Training space carrier pilots is an extremely complex and challenging task.

This process not only requires careful planning and a large investment of resources, but also involves comprehensive and in-depth skills training and knowledge education for flight personnel.

As an advanced aerospace carrier, the operational and technical requirements of an aerospace carrier far exceed those of traditional aircraft, which requires pilots to have a high degree of technical understanding and rapid response capabilities.

Pilot training not only includes familiarity with the space carrier itself, but also covers a wide range of subject knowledge, such as aeronautical engineering, aerospace science, meteorology, physics, etc., to ensure that they can operate safely in various complex environments and situations Operate the mothership efficiently.

Pilots must also undergo rigorous physical training and psychological adaptation training to cope with the physical and psychological stress they may encounter in space for long periods of time.

Furthermore, the operation of an airspace carrier often requires teamwork, and collaboration and communication between pilots are also an integral part of training.

They need to learn to remain calm in high-pressure situations and build trust with each other to ensure they can work together seamlessly when performing tasks. (End of chapter)