It’s April!

New news also came from the Chinese Academy of Sciences.

The construction of Chaoxineng hydropower stations has attracted attention from above.

After all, the current domestic energy situation is not particularly optimistic.

At present, most domestic electric energy power stations are basically divided into three categories.

One type is thermal power generation from the north. This corresponding power generation method will cause certain environmental pollution. At the same time, the coal used for power generation is also a corresponding non-renewable resource.

This has also led to the current domestic thermal power stations being gradually closed and reduced to ensure the environment in the north, and at the same time, to ensure the coal resource.

The other type is wind energy generated from the vast grassland areas.

This is a very good way of generating electricity, which is generally very common in NMG and northwest regions. After all, whenever the Siberian cold wave arrives, a very large cold wind will be formed in this area.

Huge wind energy can drive corresponding windmills and eventually generate corresponding power generation, but this kind of power generation is also very dependent on the weather.

And the corresponding amount of power generation is still less than that of hydropower, but it can still meet the basic power supply in the northwest region.

In addition to the two main forms of power generation mentioned above, there are also corresponding nuclear power and wind power generation modes, but the corresponding scale and power generation are not completely comparable to the above two power generation modes.

Of course, the scale and power generation capacity of these two power generation modes are far inferior to the last one, which is hydropower.

Among them, China's power generation and the largest power station, the Three Gorges Power Station, are hydroelectric power.

Through the corresponding geographical gap, the machine brings corresponding kinetic energy through the gap, and finally generates electricity. This kind of power generation is not only environmentally friendly, but also has a huge power generation capacity.

In particular, large and small power stations have been built in the Sichuan and Chongqing regions and some hilly areas, and the electric energy generated by these power stations can basically account for about 60% of the total domestic power generation energy.

Even in the corresponding west-to-east power transmission project, most of the power mainly comes from the Sichuan and Chongqing regions.

After all, the current eastern region is developing very rapidly, and it has the largest number of first-tier cities in the country.

To develop industry and economy, these cities require very large amounts of electricity, and the number of nearby power stations in the eastern region is very small.

Therefore, it is necessary for the western region to transport corresponding power to the eastern region to ensure the development of the eastern region.

Especially in the Jiangsu, Zhejiang, Shanghai and Pearl River Delta regions, their annual performance in power consumption is among the best in the country.

The amount of electricity that can be generated through hydropower generation is also very huge, but hydropower generation also has certain uncertain environmental factors, which have a certain impact on its power generation capacity.

After all, hydropower generation depends not only on the height of the corresponding water flow, but also on the amount of water in the water flow.

The more water flows through a power station, the more electricity it generates.

If there is a corresponding rainy season, the electricity production will be greatly increased, but if there is a corresponding dry season, the corresponding electricity production will be significantly reduced.

This is one of the main reasons why Zhou Zhen wants to build corresponding tidal energy power stations. After all, the stability of tidal energy power stations is much higher than that of hydroelectric power stations.

At the same time, it can also alleviate the pressure to reduce power consumption in the production process, which is crucial for the current Zhou Zhen.

Regarding Zhou Zhen’s proposal to build a tidal energy power station near the estuary of the Qiantang River, there was no direct reply from the authorities at first.

After all, although tidal energy power generation has been proposed for a long time, the amount of electricity generated by the tidal energy power stations that can be built around the world is really pitiful.

Even some tidal energy power stations do not produce as much electricity as hydropower stations in the hilly areas of Hunan and Guangdong.

And now that corresponding power stations are being built on the ocean, the construction costs and corresponding maintenance required are far higher than those of ordinary hydropower stations in hilly areas.

Especially in areas where there is no infrastructure, the cost of corresponding North Korean hydropower stations and corresponding connecting cables and wires is a considerable number.

Therefore, in the eyes of most people at present, the so-called tidal energy hydropower station is a project with a low cost performance, and can even be said to be a very useless project.

After all, if we have the money to build corresponding tidal energy power stations, we might as well just build three or four hydroelectric power stations in some hilly areas.

The electricity it can generate is enough to power several large cities for a period of time.

Just when the upper management was about to refuse, the Chinese Academy of Sciences promptly submitted the corresponding tidal energy power generation equipment technology patent and corresponding papers provided by Zhou Zhen.

From the corresponding technical papers, it can be seen that the technology currently provided by Zhou Zhen can increase the corresponding tidal power generation power by more than five times under the same volume.

At the same time, this time it also provides tidal double-layer power generation module technology and U-shaped tidal energy power generation module technology in the corresponding tidal energy.

First of all, the double-layer tidal energy power generation module technology is actually to build two adjacent power generation equipment within the corresponding wave range of tidal energy.

A corresponding closed gap is left between adjacent power generation equipment, and the corresponding power generation equipment adopts a one-up-one-down design, thus forming a corresponding gap of 20 to 30 meters in the enclosed space.

This corresponding structural model enables the first power generation device to receive the electrical energy brought by waves and tides.

The second layer of power generation is carried out when water passes through the power generation equipment, which is the tidal second layer of power generation that brings about the corresponding hydraulic drop through the corresponding closed drop.

This corresponding mode can be said to increase the power generation efficiency of the two power generation equipment by more than three times. The objective lens allows the two equipment to generate electricity with the help of tidal energy, and at the same time, it can also generate electricity through the gap in the enclosed space between the two corresponding equipment.

Hydroelectricity.

The other is to use 12 to 20 independent devices to form a "u" shaped opening.

This kind of opening allows the entire power generation equipment group to form corresponding fence-type equipment, which can generate greater tidal energy through the impact of waves, and ultimately bring more electricity.

If these two corresponding construction models adopt a dual combination, the construction of a new group of ultra-new energy hydropower stations can bring about more power improvements, and can even achieve the strength of the top hydropower stations in the country.

"If we use the current technology and corresponding equipment provided by Zhou Zhen, if such a tidal energy hydropower station can be built, the electricity generated by then is estimated to be at least 40 billion kilowatt-hours per year!"

The corresponding experts from the Chinese Academy of Sciences gave a very positive answer after almost a week of discussion. In their opinion, such technology is very feasible.

Even if the current Zhou Zhen can pull out the corresponding power generation equipment, based on China's current construction strength in heavy industry engineering, he will definitely be able to build a perfect new hydropower station.

The higher-ups were also excited by the responses from the current professional academicians of the Chinese Academy of Sciences.

Forty billion kilowatt-hours! This is not a small amount. This is almost the annual electricity consumption of several provinces.

This means that if this southwest-facing hydropower station can be fully constructed, then the power-consuming areas of Jiangsu, Zhejiang and Shanghai will be able to rely on this tidal energy to provide continuous power support.

This is a very good thing for the economy of a region and the energy pressure China is currently experiencing.

At the same time, we can also take this opportunity to further utilize the marine resources currently owned by China. If we can build such a tidal energy power station and succeed, we can try to build corresponding tidal energy hydropower stations in various regions of China in the future.

Although other areas may not be as good as the current Qiantang Bay area in terms of corresponding tidal energy.

However, if this technology is used, it can also meet the use of electrical energy in neighboring areas, which will greatly reduce the current power consumption pressure of the entire country.

This is a hugely influential project for a country.

"Build it! It must be built!"

Huaguo is known as the current model of heavy industry among major powers, and is basically far ahead of the world in the corresponding engineering fields.

After considering that the currently newly constructed tidal energy hydropower station is feasible, and after considering that the tidal energy hydropower station can bring a new pattern to China's energy.

The construction of this tidal energy hydropower station has basically become one of the key development projects in China this year.

The approval document for the corresponding tidal energy hydropower station was also officially issued to the Chinese Academy of Sciences.

Zhou Zhen also received a reply half a month after making the suggestion.

The tidal energy hydropower station built this time was constructed by Huaguo Power Grid with a capital investment of 40 billion, and China Construction Fifth Engineering Bureau was responsible for the construction.

As for Zhou Zhen, who provided corresponding suggestions this time, he entered the game as a technical collaborator.

After all, the amount of electricity generated by the corresponding tidal energy hydropower station is very huge, and the sales and corresponding transportation of this electricity must be supervised accordingly by the China Power Grid.

You must know that in some aspects, in order to allow ordinary people in China to reduce stress in their daily lives, domestic performance in terms of corresponding water and electricity costs is far better than abroad.

The corresponding integrated allocation mechanism makes the entire electricity bill standard affordable to more ordinary people.

Naturally, such a tidal energy power station, which affects the lives of thousands of ordinary people, cannot be completely handed over to Zhou Zhen. Zhou Zhen has long known this.
Chapter completed!