The success of the micro-lab is due to the assistance of Pangu Technology's Life Science Laboratory.

One of the most important reasons for this is to propose a concept of a microscopic element that guarantees balance, rather than caring about the presence or absence of a living being.

Under this concept, the micro-ecological laboratory of the School of Natural Sciences of Jiangcheng University has been made, and it is very different from the micro-ecological laboratory of the Omega country.

Omega's micro-eco laboratory is very "classical".

Why is it classical, because in the eco-chamber of Europe or the United States, there are farmland for growing crops, ponds, biological pools for processing astronaut excrement, and so on.

Pangu Technology's micro ecological laboratory is composed of only two parts, one is the ecological cabin and the other is the activity space.

The eco-chamber was used to find out the basic elements for maintaining the ecological balance after repeated experiments.

These basic elements are made up of microorganisms, organic matter, and inorganic matter, and are in their own "boxes", which are connected to each other according to a certain design, and under the control of the super primary, they exchange matter at a certain time in a certain proportion.

In the systematic box, there is a device dedicated to the production of food for Pangu technology, and the food produced is definitely not a corn cob or a few grains of rice, but an energy block.

Then the ecological cycle comes.

The eco-module provides drinking water and food for the astronauts, and the astronauts' excrement provides essential raw materials for the survival of other organisms in the eco-module and the production of food.

Pangu Technology's phagocytosis II colony and Canghai's improved food culture principle provide technical support for the ecological cabin.

On the ground, food factories need culture agents to produce food quickly. But in outer space, even with the culture agent, there will be a day when it will run out, so what to do?

Students from the School of Natural Sciences of Jiangcheng University, with the assistance of the Pangu Science and Technology Life Science Laboratory, have completed the greatest innovation in human history - the creation of living things.

The principle of creating living things is to adopt the gene pool of the Academy of Life Sciences and the gene-induced development method.

The creature created is not an animal or an insect, but a colony.

This colony can grow at a rate of 100 times faster than the production of livestock or grain on the ground, and it only takes half a day to grow enough quality to feed five astronauts in a day.

This colony was named after the students - broiler.

The protein, vitamins, trace elements and other nutrients contained in broilers can ensure the health of astronauts.

After the broiler is produced, it is automatically cooked and pressed into cubes, which are the energy blocks for astronauts to eat.

The invention of broiler colony has also been highly affirmed by the Xia military, because the production method and role of this food can be used in the military field, and even as a strategic reserve food.

All the substances and cycles of the Micro Ecology Experiment are monitored by Super Xiaochu.

For example, the amount of excrement of astronauts will not be constant every day, and the super elementary will reconcile oxygen, humidity, and food production according to the amount of excrement.

The frequency of this adjustment is accurate to every half minute, ensuring the ecological balance to the greatest extent.

The biggest reason for the failure of the ecological laboratory in the West is that the balance can be disrupted at any time.

For example, the number of astronauts farting today is not the same as yesterday, which can cause ecological imbalance.

Because the laboratory ecosystem is too small, the smaller the ecosystem, the more fragile it is, and the larger the ecosystem, the stronger the capacity.

Only by precisely adjusting and achieving a balance of every minute can the ecosystem survive for a long time.

Zhou Guangjing was overjoyed to see the students' experimental masterpieces!

All the time: "It's too late! It's too late!"

Zhou Guangjing is talking about time here, referring to the fact that it is still too late to land on the moon.

After 20 years of experiments such as lunar orbiting, landing, and returning, the Xia Lunar Exploration Center finally formulated a de facto manned lunar landing plan by the end of this year.

The moon landing program at the end of the summer country is divided into two programs.

One is to send astronauts to the sky, walk around the moon twice and take samples at once.

One is that if Pangu Technology can help, then launch an ecological experiment module on the moon, so that astronauts can stay on the moon for about a week to a month to complete the experiment and then return.

It takes a very long time for a spacecraft to go from the ground to the moon, and if there are astronauts, a lot of food and water are needed.

If the moon is not able to achieve an ecological cycle, then the food and water carried will not be able to support the experiment.

The success of the micro-ecological chain on the side of Pangu Technology means that the Xia Guo Lunar Exploration Center can adopt the second plan, which is to circulate an experimental ecological module in the lunar home, allowing astronauts to stay on it for a longer period of time.

This is why Zhou Jingguang is excited.

"Is it too late?" Xiao Ming asked, "There is less than half a year left before the next window." ”

"It's too late! It's completely too late!" Zhou Jingguang said: "The School of Natural Sciences of Jiangcheng University was originally set up as a key laboratory of the Aerospace Center, and the experimental results here can be directly applied. There are a few months left to go to the aerospace center for commissioning. ”

Xiao Ming said: "This is our first-generation microbiosphere, which is directly launched by a rocket after docking on the ground, and is carried by a spacecraft on the moon for direct use. The purpose of this is to reduce the trouble of astronaut splicing, the disadvantage is that it is relatively small, and after the landing is launched, the space for astronaut activities is less than 5 square meters. ”

"However, on the basis of the first generation of micro-biospheres, we can continue to launch new activity and biological warehouses to the moon, and then combine them into a larger activity space, or a base. ”

Xiao Ming is very satisfied with his students, they have made very rapid progress, and under the leadership of their mentors, they have been able to complete the key scientific research projects of the National Laboratory.

Human exploration of outer space has never stopped, and the discovery of the vast universe is not only the responsibility of Pangu Technology alone, but the responsibility of mankind as a whole.

In fact, the best way to explore is to collaborate on research, and the whole world to work together.

However, because human beings are not completely united, and because they are fighting each other because of their own personal interests, they have not been able to reach unity on the issue of jointly exploring the universe.

It doesn't matter if there is no way to act in unison between countries, as long as the Xia Kingdom can act in unison.

In the initial exploration stage, Pangu Technology will try its best to assist Xia Guo in exploring the Moon or Mars and provide technical assistance to it.

When waiting for a major breakthrough in cosmic physics or dynamics, Pangu Technology will try to take the lead and lead the relevant national departments to explore the universe.

Zhou Jingguang got the experimental data of Pangu Technology, and Yang Li and other students will go to Yanjing with Zhou Jingguang as technicians of the Micro Ecology Laboratory.

There, the real laboratory will be developed, produced, and at the end of the year, the astronauts will go straight to the moon.

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