Chapter 130 (1/2)

As Tony took the glass and left, Wang Bin did not continue to stay in his shop, but directly returned to the real world.

Back in the real world, Wang Bin did not go to the laboratory immediately, but first called Jia Jie and entrusted them with the task of designing and manufacturing the normal temperature copper based superconducting material production line. Of course, Wang Bin did not tell them the specific data of normal temperature Tongji superconducting material, but just told them some general data.

For example, the production capacity of the production line, the products produced by the production line, and so on.

Then he turned and left his office and walked towards his own laboratory.

After all, since he has purchased the technology from the system, he must find a way to realize the technology. Of course, if he wants to realize the electromagnetic railgun technology, Wang Bin must first solve the problem of high-capacity superconducting capacitor technology.

However, Wang Bin found that in fact, for basic materials, technologies like this are easier to implement, take superconducting batteries for example.

Because now he has a copper based room temperature superconducting material, it is not difficult to realize a relatively simple superconducting battery.

So it only took Wang Bin less than a week to get a copper based superconducting battery, or superconducting capacitor. Of course, the copper based superconducting battery is actually the simplest superconducting battery that Wang Bin obtained from the system.

Wang Bin looked at the superconducting battery with a height of less than 10 cm, a thickness of only 2 cm and a width of only 5 cm.

Although this battery is only the simplest of many superconducting batteries given by the system.

However, in such a small battery, it stores 1000 ampere hours, that is, about 50 degrees.

According to the data of the system, the electric energy stored by such a small superconducting battery can provide more than 50 consecutive maximum energy launches for electromagnetic rail guns below 5mm.

What if you put this battery on other modern electric equipment! Not to mention anything else, take the electric car that everyone is using on the road.

Generally speaking, the vast majority of electric vehicles on the market use 48v20a lead-acid batteries, and the storage capacity of a group of 48v20a lead-acid batteries is about once.

In terms of output voltage, generally speaking, the maximum output of each lead-acid battery is only 12 pairs. If you want to achieve a higher voltage, the lead-acid battery must be connected in series.

The voltage of a single lithium battery is smaller, often only a few volts. The lithium battery on the lithium battery electric vehicle is connected in series by a very large number of lithium batteries to meet the voltage requirements of the electric vehicle.

The superconducting battery in Wang Bin's hand is different. According to the data, the maximum output voltage of this battery is very large compared with lead-acid battery and lithium battery. It can reach the level of 100 volts at most. At the same time, in terms of instantaneous release of current, it is not comparable to lead-acid battery or lithium battery.

After all, this copper based superconducting battery is essentially a super large capacity capacitor, so if necessary, this battery can release all the electric energy in the battery in one second.

In fact, this is also the reason why this battery can be used as energy on the rail gun, because the current released by the rail gun is very large at the moment when it launches a projectile.

Ordinary batteries and lithium batteries can't reach it at all. If you use lithium batteries, you don't have to wait for the rail gun to launch, and the batteries have burned themselves. After all, the nature of lithium batteries is no different from gunpowder.

In addition, in terms of safety, since the main raw material of copper-based superconducting battery is copper-based room temperature superconducting material, and the main raw material of copper-based room temperature superconducting material is metallic copper, there are not too many chemical materials in it, so there is no fire or explosion in this superconducting battery.

Of course, if there is a short circuit in the process of use, it is still possible to burn the superconducting coil in the superconducting battery, but the probability is not large. It is more likely to burn the short circuit place and even the wires.

Therefore, that is to say, the storage capacity of such a small superconducting battery is 50 times that of the ordinary 48v20a lead-acid battery. The most important thing is the gap in volume. This battery is less than 1% of that of the ordinary 48v20a battery.

You know, even if graphene batteries are favored by major companies and countries around the world, their energy density is about ten times that of lithium batteries.

In general, the energy density of lithium battery is only three to four times that of lead-acid battery. In other words, the ideal storage capacity of graphene battery is about thirty or forty times that of lead-acid battery.