The richest man starts with black technology

In the next few days, Mo Li's team and the team from the School of Life Sciences of Jiangcheng University of Science and Technology began to design experimental plans and ideas.

In fact, most of them are led by Mo Li's team, and most of the teachers and students of the School of Life Sciences of Jiangcheng University of Science and Technology are all out to help.

The main reason is that Origin Group has the most advanced microbiological technology, and the Jiangcheng Polytechnic team is still far from the requirements of the experiment.

But it does not matter.

The most important purpose of school-enterprise cooperation is to hope that students can participate in the experiment and feel the atmosphere of this experiment.

After all, Zhou Xiao is also the honorary dean of the School of Life Sciences of Jiangcheng University of Science and Technology, as well as the powers of the deputy dean, so help is certain.

After precise measurement, the open space behind the Jiangcheng Polytechnic Office Building is three acres in total, and the location is not small.

According to the plan, the laboratory team invited workers to clear all the garbage from three mu of land and stack them in the first fixed place.

It should be dredged and not blocked. Now it is impossible for the businesses in the university town and the workers who transport rubbish not to pile up rubbish here.

Therefore, in the place where the other party’s garbage is placed, the school has set up a place to throw garbage, which is convenient for the merchants in the university town and regulates the location of garbage.

It took a full week to clear the ground.

Then came construction.

The construction of laboratories and training bases mainly uses steel structure buildings.

This kind of building is convenient to construct, and it is also convenient to expand or change the use in the future.

The building structure of the waste treatment and microbial power generation laboratory is divided into these parts after planning.

The first is the garbage dump point.

The second is a multi-stage colony processing tank.

The third is the ionizing bacteria cell.

The fourth is the sewage and waste discharge pond.

According to the design of the experimental team, the final sewage or waste must be inorganic matter that cannot be digested by the colony.

Here comes the experimental argument.

Some laboratory personnel directly suggested throwing garbage directly into ionizing bacteria so that the ionizing bacteria can directly use organic matter to generate electricity.

This is indeed very simple, but the utilization rate of garbage is not high.

Although ionizing bacteria can generate electricity from food waste, they cannot decompose higher molecular weight organic matter.

The final plan is to use a multi-polar colony pool to decompose all organic matter, and decompose macromolecular organic matter into small molecular organic matter or carbon compounds.

Then these things are sent to the colony pool of heteromorphic digestive bacteria, which are synthesized into high-energy substances by heteromorphic bacteria.

Finally, these high-energy substances are sent to the colony pool of ionizing bacteria so that the ionizing bacteria can generate electricity.

Some time ago, Mo Li's laboratory conducted research on digestive bacteria of the opposite sex and made great progress.

The current heterogeneous digestive bacteria can not only directly combine small-molecule organics as macromolecular high-energy substances, but also use the carbon compounds in solution (mainly water-soluble carbon dioxide and carbonate ions, etc.) to synthesize high-energy organics .

Heterosexual digestive bacteria is currently a colony of a variety of heterosexual digestive bacteria, rather than a single type of bacteria.

The reason why heterosexual digestive bacteria have this part of the new ability is mainly due to the gene of the Chlorocelium-Chlorocelium can absorb carbon dioxide in the blood and the air, and use photosynthesis to synthesize carbohydrates.

Zhou Xiao said: "Then our current test sequence should be like this: macromolecular organics-small molecular organics and carbon compounds (plastic products are strongly decomposed into carbon dioxide, water and various salts)-high-energy organics -Power generation."

The student who came to participate in the experiment asked:

"Dean Zhou, didn’t we repeat some steps in this way? We changed the large-molecule organic matter into the small-molecule organic matter, and used the heteromorphic digestive bacteria to synthesize high-energy organic matter from the small-molecule organic matter, and then gave the high-energy organic matter to the ionization Bacteria power generation? Why not skip the step of synthesizing high-energy organic matter and directly use small-molecule organic matter to generate electricity?"

It is a good thing that students love to ask questions, which proves that they have invested in this experiment and are actively thinking.

Zhou Xiao said, "Please ask Team Leader Mo Li to answer you this question."

Mo Li nodded and said, "You may not pay attention to the types of garbage. We should make it clear that the garbage that can be used for power generation by ionizing bacteria must be organic garbage. What is more organic garbage? Kitchen waste and plastic Products, including plastic bags and plastic bottles that cannot be recycled."

Mo Li explained, “Among them, the kitchen waste area can be dumped directly into the pool of ionizing bacteria to generate electricity directly, while our plastic waste cannot be decomposed by ionizing bacteria, but only through the strong digestion bacteria to decompose into carbon-screaming compounds. Then the organic matter is synthesized by heteromorphic digestive bacteria so that it can be used by ionizing bacteria."

"After the laboratory, the ionizing bacteria are being differentiated and cultured, and I hope that one day the ionizing bacteria can directly decompose plastic products, so that we can save a lot of trouble."

"We use multipolar colonies, although it is more troublesome and there will be energy loss, but the efficiency of power generation will be higher and the speed will be faster."

The students understood the rationale at once and said: "If the kitchen waste and plastic waste are separated in the garbage dump manually, the workload will be large, and the separation will not be so clean."

"Whether the waste sorting is done at the front end or the back end is indeed a problem, but as far as the current situation in Xia Guo is concerned, the front-end waste sorting is actually not done well."

Students often see that there are several trash cans in the school.

What can be recycled, not recycled, etc.

But when a real garbage truck comes to collect the garbage, no matter how you sort it, you still put all the garbage together.

The microbial power generation laboratory is not a traditional waste treatment station, and does not have the ability to sort waste at the back end.

You can’t let students wear gloves and look for what can be recycled and what can’t be recycled in a pile of garbage after school every day.

Zhou Xiao added: “The ionizing bacteria were originally designed to be used on mobile phones. Some parts of the battery compartment had organic plastic parts. If we designed the ionizing bacteria to have a strong decomposing ability, the phone would have been melted long ago.”

Now the students know that there is this allusion to ionizing bacteria.

Another student asked, "According to the law of conservation of energy, the amount of energy that can be released in garbage is actually certain. In fact, combustion can release the most energy. Why do we not directly incinerate garbage but use such troublesome methods?"