The Black Technology Era of Xueba

The theory provided by Su Yi came from the Life Science Laboratory of Harvard University. In Harvard's laboratory, the theory of garbage classification and treatment was proposed a few years ago.

The theory seems simple, but it is very troublesome to operate.

Garbage is divided into two categories: organic and inorganic. The organic garbage is treated according to the stacking method, and the inorganic garbage is directly returned to nature after being cleaned up.

The organic waste biological stacking method is based on the type of organic matter from small to large, using the inclusion relationship layer by layer.

In this method there will be such a process.

First of all, inorganic wastes such as stones, glass slag, and cans can be stripped first, and those that can be recycled are recycled, and those that cannot be recycled are thrown into landfills.

After being treated in this way, the remaining inorganic waste is treated in layers using biological, chemical and physical methods.

Different types of waste have different treatment methods. For example, kitchen waste can be biodegraded or can be degraded naturally after being landfilled, while plastic waste can only be landfilled.

Then the treatment of kitchen waste is included in the treatment of plastic waste, because both can be landfilled.

In order to protect the environment to the greatest extent and prevent animals from swallowing plastic waste when looking for kitchen waste in landfills, Haval's laboratory will choose to first use a biodegradable method to deal with kitchen waste, and the degraded kitchen waste It is used as organic fertilizer for crops, and in the end, plastic waste is left, which can be landfilled.

Without the temptation of kitchen waste, there will be very few animals not to eat plastic waste.

This is just a simple theoretical description, the actual types of garbage are much more than the description, and the stacking method is also much more complicated.

This method of garbage disposal can indeed protect the environment to the greatest extent and maximize the recycling of resources, but this is based on an idealized model in the laboratory, and the cost of incomplete classification at the source of garbage is very high.

When Su Yi introduced this method, he also completely got rid of the different ways of degrading waste. Some methods really belong to the blind area of ​​Xia Guo's scientific and technological knowledge, which has a good reference and reference effect.

"Aren't you afraid that Harvard Lab will be held accountable?"

Jiangcheng University, Xiao Ming asked Su Yi.

"You also know that many settings in the laboratory are idealized situations. I just introduced this method and hope that students can use it as a reference."

The weather was getting colder, Su Yi put on a thick woolen coat, short hair and large-frame glasses looking delicate and elegant.

"The students were smart enough to combine the characteristics of phagocytosis II colonies to form a treatment method in such a short period of time," Su Yi added.

In the group papers submitted by the students, the method provided by Su Yi was optimized.

To put it simply, the organic matter is handed over to the Phagocytosis II colony for processing, and the remaining inorganic matter is reclassified after the treatment.

This method is also in line with the reality of Xia Guo’s garbage. It is not impossible for Xia Guo people to do garbage classification from the source, but it is necessary to cultivate habits, legal and moral support, and most importantly, time.

Toyo's garbage distribution has been done for decades to achieve results. It is obviously unscientific to expect Xia Kingdom, which has 1.56 billion people, to do it well in just a few years.

Since people can't do it well for a while, then it's handed over to microbes and to computers.

The computer team of the students made a detailed identification system of garbage types using the quantum computer provided by Pangu Technology, and used robots to replace manual garbage classification.

Xiao Ming nodded with satisfaction. That was the reason why he said that the project was simple.

Phagocytosis II colonies and quantum chips and Pangu system are all tools, and students only need to use this tool.

The waste classification and treatment process in the paper becomes simple.

The first step is to mix all the garbage, regardless of whether it is three, seven, or twenty-one. There is no hassle of source classification and end classification.

In the second step, all the garbage is thrown into the garbage disposal tank full of Phagocytosis II colonies.

In the garbage disposal tank, there is a culture medium that the Phagocytosis II colony likes, and the temperature and pressure are more suitable for its growth.

Because the phagocytosis II colony has been improved, plastic waste will also be dissolved at this time.

In this process, Phagocytosis II colony will dissolve all soluble substances (mainly organic matter), and heavy metal elements in ionic state will enter the body of Phagocytosis II colony. Because heavy metals cannot participate in colony formation and metabolism, they will fall into Phagocytosis II. After death, it accumulates in the corpse of the colony.

Finally, the dead bodies of the colonies will be salvaged and processed centrally - either chemically extracting the heavy metals (mainly copper and zinc) in them, or separately concentrated in a landfill somewhere with minimal environmental cost.

The third step is artificial intelligence garbage classification.

After the second step, the untreated garbage will be filtered out. This part of the garbage is mainly inorganic garbage such as cans, waste glass, iron nails and so on.

The filtered garbage will be transported to the open space to dry, and then sorted by artificial intelligence robots.

What can be recycled is recycled, and what cannot be recycled is returned to nature.

Those that can be recycled are similar to cans, iron blocks, etc., and those that cannot be recycled, such as sand, rocks, etc., will be thrown into landfills for waste.

In such a cycle, Xia Guo can basically achieve perfection in garbage disposal.

"Will this process waste a lot of resources? For example, the organic matter that can be recovered will be dissolved by the Phagocytosis II colony." When discussing the thesis with the students, many students raised this question.

The most important thing in waste sorting is recycling.

This question does not need Xiao Ming to answer, the industrious people of Xia Guo have already given the answer.

Xiao Ming said: "Xia has a population of 15.6 billion and is engaged in all walks of life, many of whom are engaged in waste recycling. In garbage disposal, we have already recycled everything that can be recycled, and it is more than any other country. Do it well. Cans, plastic bottles, waste cardboard, waste glass, etc., the hard-working people of Xia Guo have actually completed this step long ago.”

Xiao Ming's words caused many students to nod their heads.

Who said that the people of Xiaguo did not have garbage sorting and recycling, and most of the valuables that could be recycled were recycled.

And the cost and time saved by the disposal methods developed by the students are much higher than the value earned by traditional garbage sorting and recycling.

Xiao Ming stood up and clapped his hands and said, "Attention to all groups, now everyone has to work together to carry out the final sprint. I have provided chips and corresponding hardware equipment. The sorting robot should be developed, and the garbage disposal process should be optimized. Also optimize, I'll give you a week. After a week I hope to see results."

Xiao Ming also said: "In addition, I have set up a private venture fund. If you can succeed, I will invest and let us make money together!"

The students cheered!

Xiao Ming did not notice that at the door of the classroom, a graceful figure leaned against the door.