-Based Power This thing is actually not simple. Graphene is that kind, and its characteristics are quite unique. It has great application potential in the field of power distribution.
First of all, what is graphene conductivity? Graphene is a two-dimensional material formed by a six-membered ring composed of carbon atoms. Its structure is very special, and the way the electrons move inside is very different from that of ordinary materials.
Like traditional wires and cables, there are often resistance problems. If the resistance is large, a lot of electricity will be consumed when the power is transmitted. But
1. If it is replaced with graphene, its resistance is very low. With its unique atomic spacing, electrons can pass smoothly like sliding.
2. In this way, the energy consumed during power transmission is reduced little by little, which means that a more powerful and longer-distance stable current can be delivered.
Next, let’s take a look at how modularization is disassembled in this key part. On the one hand, we have to make relevant power accessories, which is to use graphene and other materials to make cables, and then assemble them into distribution components such as micro switch cabinets. These need to be designed and installed little by little, and the installation process is good. This part of the process is well designed to help the equipment to accurately assemble and install time-consuming and securely install it.
On the other hand, the system must have intelligent diagnostic monitoring capabilities, and use graphene materials to create high-performance sensors and set them to key points of the system
Can accurately monitor current and discover the changes in the grid fault in real time. For example, a certain resistor suddenly has a large abnormality, you can send a notification in time to send someone to repair it.
In terms of daily application scenarios. First of all, small residential communities use graphene transmission and distribution pipelines, so that the user costs will be lower than ordinary cables, and because of its efficient transmission, it can make the electricity much more stable.
Large commercial areas, Graphene-Based Power Distribution in high-rise commercial buildings, require a lot of energy. Using graphene power distribution can ensure the power transmission in different areas of dozens of floors
Even if hundreds of office computers use electronic devices, they will be as smooth as a line of beads.
In the field of industrial application, graphene-based distribution systems can resist strong mechanical vibrations and high-frequency electromagnetic fields interference? For many heavy industry workshop environments like robot manufacturing, it can continuously and stably meet work needs.
Let me answer some common related questions
Q: Will graphene be too expensive and it is difficult to popularize on a large scale
Answer: Although in early production, the technology is not mature, it is relatively expensive. But in recent years, many expert research teams have devoted themselves to development
Prices are gradually decreasing. Gradually, we are also moving towards a widespread application and popularity of steel.
Q: Will there be any problems with the safety performance after using graphene?
Answer: You have to think so, normal electrical equipment also has the risk of short circuit and fire. When using distribution distribution based on graphene, the system can react quickly
If the current is unstable and exceeds the amplitude, the circuit can be interrupted immediately. Compared with conventional devices, it can cut off the source of danger earlier.
In addition, the system intelligent detection and monitoring system prompts workers to check for hidden dangers as soon as possible. The safety has been greatly improved.
Compared with common materials, this thing is also very advantageous. For example, the resistance of commonly used aluminum and copper cables is obviously much larger than that of which, it consumes a lot of electricity during transmission.
For example, some high-end power supply devices originally rely on other metal alloys to not have that long life, so what will happen if the material is aging? Graphene made of can last longer and not easily lose.
The products made by different manufacturers in the market may also be different. Some of them have uneven quality, but as long as you find the right merchant with R&D capabilities, it is quite good. Anyway, like I think this – Based Power has unlimited room for expansion in the future power system. Maybe in a few decades, we will replace many of the power distribution forms that are still common today, providing global procurement services for weak current intelligent products!
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