The deep geothermal energy in the Super League is a strategic trick, and the key point is to disclose some ambiguous information to the outside world through several "hidden" chess games.

Published on 07/07/2024

Create a new technology that can generate deep geothermal energy.
In the frequent occurrence of micro-signals, it is because the excavated magma contains a lot of radioactive materials and the magma surges to the ground.
Believe it or not, I believe it anyway.
Huang Weichang and Qin Lizhang exchanged some information, and through the clairvoyance of North America and Western Europe, they can be sure that the other party has believed it.
Just two months ago, Noah secretly set up a geological research institute in Oregon and made holes.
At the same time, a large number of geothermal energy experts and scholars and five enterprises have been mobilized to attack deep geothermal power technology.
It is true that this strategy is not complete, and the potential amount of deep geothermal energy is comparable to that of controlled nuclear fusion.
After all, the mantle is the birthplace of magma, and this heat energy comes from the core, mantle, nuclear decay and nuclear fission.
However, deep geothermal energy faces many technical problems, and high pressure, high temperature and radioactivity alone are enough to kill human beings.
The idea is beautiful, but the material can’t bear it.
But Noah will have to bite the bullet and follow up because they know that once the ball gets cold, the energy problem will stand out.
Either burn a lot of fossil fuels, but the exploitation of fossil fuels is getting higher and higher, and the shallow coal, oil and gas on the surface will be exhausted sooner or later, and the excavation will be higher and higher.
Either the problem of building a large number of nuclear weapons is that nuclear fuel is not limited, especially at present, the geological abundance of uranium 235, the main raw material for nuclear fission, is very low.
Moreover, Australia accounts for about 2-3% of the total uranium ore, followed by Kazakhstan with 19%, followed by Lucia and Maple Leaf countries.
Noah will control America’s uranium deposits, accounting for about 22% of the globe.
Although the scientific research project of thorium nuclear fission reactor has been started, the technology is not very mature at present and further investment is needed.
Controlled nuclear fusion’s technology has no clue, nuclear fission is facing a shortage of raw materials, so it must be considered later
The secret study of deep geothermal energy technology has become a channel to obtain energy quickly.
Being tricked into geothermal energy, Noah didn’t know that the deep geothermal energy is really selling dog meat.
Huang Weichang and his party entered the nuclear fusion department after a series of inspections.
Chapter six hundred and thirty-three The 15th generation
Namco nucleus
Buildings made of super materials through cold passages may be decorated twice if they are residential buildings or commercial buildings.
However, similar to industrial buildings, especially the foundation of this kind of ground-based building is kept in the initial state.
The silver-gray wall and ceiling are also white, and the air outlet with constant temperature is blowing 26 degrees Celsius.
Huang Weichang is very familiar with this architectural style, and it is always the style of industrial architecture to minimize the secondary decoration.
Ai Yanmin, the nuclear manager, is a staid and earnest man. He took Huang Weichang and his party to the nuclear control room.
The Namco nuclear has been put into trial operation for more than two months, and it is running very well at present. There are three sets of Tanggu 15 nuclear fusion systems in the nuclear.
"… Mr. Huang, at present, No.1 and No.2 machines are operating normally, and No.3 machine is undergoing final installation." Ai Yanmin pointed to the nuclear plan of the general control room and introduced it.
Huang Weichang took a glance.
The nuclear plan shows that the three sets of nuclear fusion generators are not crowded together, but are distributed in a line along the mountain at a distance of 13 kilometers.
Unit 1 and Unit 2 are constant units, Unit 3 is peak shaving and standby unit, and the power output of a single nuclear fusion generator set is MW.
After reading some materials, Huang Weichang looked up and asked, "I heard that the volume of the unit has shrunk a lot after the improvement?"
Ai yanmin nodded, "it is about 24~27% smaller than the original generation unit, and the power and efficiency are obviously improved."
Evaluation of a power Huang Weichang combined with the current snow area indoor agricultural needs
The total power of three sets of nuclear fusion generators is 240,000 MW, and the average power of peak shaving and standby should be about 20,000 MW.
The annual output can reach 17.5 billion kwh, which is equivalent to 17 Three Gorges projects.
After continuous technical improvement, nuclear fusion is well developed, and the fresh water can be recycled for a long time by adding it to the steam turbine of circulating water system at one time.
The average monthly water replenishment rate is about 21~34%.
Huang Weichang went on to ask, "Is the old Ai Fa cooling water treated?"
"At present, the warm leftovers from villages and towns near the base are temporarily released into Namco," Ai Yanmin added.
"About 5 kilometers away from the base is Namco chamber agricultural factory, fresh water factory, salt factory and then Namco town. At present, the agricultural factory has not invested, which makes the cooling water in short supply."
Nuclear produces cooling water, which is a way to avoid.
According to thermodynamics and energy conservation, no matter how high the nuclear thermal efficiency is, 1% thermal conversion can be achieved.
Even with the temperature difference, the overall thermal efficiency of controlled nuclear fusion is still at the limit of 75.1%, and it is difficult to continue to increase the thermal efficiency at this stage.
Therefore, a part of energy waste heat will be discharged in the process of power generation, and the cooling water will occupy a large part.
Although these cooling water can be used for secondary waste heat recovery by adding a supplementary heat furnace to the thermoelectric module
However, this kind of design engineers have chosen to give up the economic benefits generated by this set of waste heat secondary development system. It may take decades to recover the equipment, and the efficiency can be increased by at most 1~2%. The cost performance ratio is too low.
After a waste heat generation, the heat of these cooling water is difficult to directly benefit the temperature difference generation again, and it is necessary to supplement the heat and increase the temperature to reach the secondary temperature standard.
And the supplementary heat must be added from the external system, which will lead to the bloated system

Author: adminq

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