As for herding, Ji Donglai's men replaced the manual inspections and various operations on motorcycles of other ranches, and instead used one yuan to build the latest drone for herding.
"From here to here, we will build fourteen base stations and lay lines along the road. On the top of the mountain, we will build a photovoltaic panel matrix and conduct various drone patrols 24 hours a day."
"We will implant a biochip into each cow. This is the latest chip developed by Yiyuan Manufacturing. It can monitor the physical condition of the cow in real time, including weight, milk production, and when is the right time for conception."
"In the best seasons, our staff will milk the cows in captivity. The production of milk powder is also very simple. The high-temperature dehydration and drying truck is on standby at any time. Once the milking of the cows is completed, the milk powder can be produced immediately. There is absolutely no adulteration. The case of fake additives.”
After moving to her new home, Xinli hired a well-known program host in China through Xiyu to advertise the company.
The entire production process of Yiyuan milk powder is introduced in detail, including natural pastures, mechanical milking, and on-site processing. It is purely natural and pollution-free.
To increase new traffic for enterprises, from Central Asia to China, the output of milk powder from the East will firmly occupy the top three in the next season. Metro named its dairy suppliers.
Several large supermarkets abroad now also name One Yuan Ranch's dairy products. Now companies are selectively entering. With the rise of online sales, the tons of milk powder shipped out every day cannot reach a few cans of large supermarkets.
"Mr. Ji, this is our latest research result, and of course it is based on the basic results of your previous research. Wave cracking rubber and plastic materials, this time we used wave cracking to crack coal and oil, now look The effect is very good.”
This is our physical property analysis of the chemical composition of coal. Because different components in coal have different dielectric properties and different microwave absorption capabilities, we can select the waveband for each element.
Using microwave radiation and selective heating, not only can desulfurization of coal be achieved, but also variations in coal properties can be avoided. Microwave radiation has a significant effect on the removal of inorganic sulfur and organic sulfur from coal.
In the past, we used thermal cracking to remove organic sulfur, especially inorganic sulfur, which was the most laborious. Not only are there many by-products, but it is also difficult to remove the impurities inside at once.
The use of microwave processing saves at least five steps in the process. Although the technology is a bit more complicated, the cost is reduced a lot.
In addition, microwaves can improve the magnetism of pyrite in coal, thereby effectively increasing the removal rate of inorganic sulfur.
By subjecting raw coal to microwave radiation in an inert atmosphere and cleaning it with hydrochloric acid, 97% of inorganic sulfur can be removed.
After irradiating the raw coal with microwaves, it is cleaned with peracetic acid to improve the desulfurization rate of the coal.
In addition to being directly used for microwave desulfurization, microwaves can also be used in combination with other desulfurization methods. We are now studying ultrasonic, magnetic separation and chemical methods.
We have achieved success with these methods in the laboratory. The next step is for us to apply for the establishment of a standardized cracking furnace and a complete production line at Horgos Unichemical.
Comparing this production line with the original traditional thermal cracking, once successful, all our original thermal cracking production lines can be upgraded, reducing the cost of our coal chemical products by one percentage point.
In addition, we are currently conducting experiments on Sakhalin oil, which also uses microwave cracking technology to crack oil. Now we find that this technology can significantly improve refining technology and directly catch up with European and American countries.
In the small conference room of Yiyuan Manufacturing Headquarters, a technician held a laser pointer in his hand and talked to several shareholders below.
Wave cracking technology is the new development direction of the company, and many people are now focusing on this aspect.
Sun Pengfei was also by chance this time. The other party had just returned from the Yiyuan Chemical site and was immediately assigned to the wave cracking project team. It was a seamless connection.
Both rubber and plastic are by-products of mineral products.
Microwaves can break down both products, but what about the source product?
Sun Pengfei then directly applied for project approval and sat in the group's archives for half a month, studying the coal chemical industry's processes and drawings based on his own experience, and finally formed his own ideas.
Applying with Gan Ping, Gan Ping checked all the information and felt it was feasible, but the funds involved were too large. The other party had a direct call with Ji Donglai, which led to today's briefing.
Ji Donglai was looking at the PPT quietly at this time, thinking quickly in his mind. Especially when it comes to coal chemical industry, Ji Donglai has gone further and further.
This is something Ji Donglai didn't expect. After all, Ji Donglai was just making equipment at the beginning.
Nowadays, these things are involved in a wide range of things, and the manpower under them is obviously not enough. After all, if the referees and players are of the same level, or even stand together, big problems will easily occur.
As a top student at Capital University of Technology, Ji Donglai agreed with everything Sun Pengfei said, among which the shortcomings of thermal cracking are very obvious at the moment.
In particular, the extremely large inertia of thermal cracking is a headache for all engineers.
Using a cooling system to precisely control heat actually throws away excess heat, which wastes energy and increases the burden on the equipment.
The most important thing is that during the cracking process of the heated product, the temperature must change at any time. Thermal cracking often has serious hysteresis, so every cracking factory will always be on, unless there is a failure, otherwise it will never shut down.
Microwave pyrolysis has small thermal inertia, easy control of temperature and pyrolysis process, high pyrolysis product yield, and high CO and H2 content in pyrolysis gas, which can effectively increase the utilization rate of coal resources and improve tar quality.
Pyrolysis is the thermochemical decomposition of hydrocarbons (or organic matter) at high temperatures without oxygen, producing tar, coke, and gases containing a variety of components.
Coal gasification, liquefaction and pyrolysis are effective ways to improve the clean utilization of coal, and coal pyrolysis is the basis of coal thermal conversion technology. Pyrolysis can extract hydrogen-rich components from coal under mild conditions and is an important method to improve coal utilization efficiency.
Traditional heating technology is based on the principles of heat conduction, convection and radiation to transfer heat from the outside to the material. Heat is always transferred from the surface to the inside to heat the material. There is inevitably a temperature gradient in the material, so the heated material is uneven, causing the material to appear. Local overheating.
Microwave heating technology uses high-frequency reciprocating motion of dipole molecules inside the heated object to generate "internal friction heat" to increase the temperature of the heated material. Without any heat conduction process, the inside and outside of the material can be heated and heated at the same time. The speed is fast and uniform, and only a fraction or a few tenths of the energy consumption of traditional heating methods can be achieved.
(End of chapter)
