The sniper starts from the bright sword escape period
Chapter 623 The Awakening of the Thunder Fruit Normal Temperature Superconductor
Chapter 623 The Awakening of the Thunder Fruit Normal Temperature Superconductor
So Yurixiu began to use the Thunder Fruit to compare Aokiji and Akainu's Devil Fruit awakenings. If Yuurixiu's Thunder Fruit awakens, what should he do to change the landscape environment so that an island is filled with long-lasting thunder and lightning?
Thinking, thinking, Bailixiu couldn't help but have a flash of inspiration in her mind, and Bailixiu immediately caught the inspiration.
At that time, Baili Xiu was thinking about what could be used to store lightning. Naturally, his first idea was a device that could store electricity, and among all electricity storage methods, the best battery was naturally a superconductor storage battery.
Although the world before Bailixiu traveled through had not yet realized normal-temperature superconducting materials, very-warm superconductors had already appeared. Therefore, the superconducting energy storage materials used in Bailixiu's world were all very-temperature storage materials. Energy materials.
While superconducting magnetic energy storage was originally used for large-scale load balancing, due to its rapid discharge capabilities, it has been deployed in power systems for pulsed power and system stability applications.
Superconducting magnetic energy storage technology is a new technology that stores grid power in the magnetic field of superconducting coils, and its energy loss is close to zero.
Superconducting magnetic energy storage systems are grid-driven devices that can store and release large amounts of energy almost instantaneously.To compensate for rapid losses or drops in line power, the system may release large amounts of power for a small portion of a cycle.As grid lines become increasingly congested and renewable energy sources such as wind and solar become increasingly popular, intentional injections of ephemeral power can play a key role in ensuring grid resilience.
Superconducting magnetic energy storage systems combine superconducting, cryogenic and power electronics technologies.A standard superconducting magnetic energy storage system consists of four parts: power conditioning system, superconducting coil magnet, cryogenic system and controller.
Of course, if the technology of normal-temperature superconductors is popularized, low-temperature technology will be eliminated.
As for how superconductors store energy, it is simple. Because superconductors are materials with zero resistance, the current passes through the coil formed by the superconducting wire to store energy.
Because there are no losses, when the coil is short-circuited, the current remains constant and creates a magnetic field, similar to an MRI coil.Energy is therefore stored in the coil in both magnetic and electrical forms and can be recovered within a relatively short period of time.
The coil must be superconducting, otherwise the energy would be wasted in milliseconds due to the Joule effect.Superconducting magnetic energy storage systems have high power density and moderate energy density, almost unlimited number of charge and discharge cycles, and high energy conversion efficiency of more than 95%.
A superconducting magnetic energy storage system is more like a pulse current source than an energy storage device.Therefore, superconducting magnetic energy storage systems are the best choice for uninterruptible power systems or some flexible AC transmission systems, which are static devices used to improve the power grid.
Using superconducting magnetic energy storage has many advantages over other energy storage.The most significant benefit of superconducting magnetic energy storage is the minimal time delay between charging and discharging.Electricity is available almost instantly and can provide very high power output for short periods of time.
Therefore, if the need is immediate, superconducting magnetic energy storage is a viable option.Another advantage is that because superconducting coils have almost zero resistance, they consume less power than other memory systems.
In the world before Bailixiu's time travel, electricity was almost the main energy source. Superconducting magnetic energy storage systems had three main application scenarios: control systems, power supply systems, and emergency systems.
The utilization of electricity requires reliable and stable power supply.This stability is determined by the amount of electricity consumed and produced.Energy usage fluctuates during the day and throughout the seasons.The superconducting magnetic energy storage system can store energy when the power generation is greater than the demand/load and release the energy when the load is greater than the power generation.Therefore, power fluctuations are compensated.Uninterruptible power supplies provide continuous power to prevent power spikes and shortages.This compensation is achieved by switching from a failed power source to a superconducting magnetic energy storage system, which can provide the power needed almost immediately to keep critical systems running.
The load may be greater than the rated output power of the generator when the load does not match the output power produced due to load disturbances.This happens, for example, when a wind turbine stops spinning due to a sudden lack of wind.
This load disturbance may cause load frequency control problems.When the power generation exceeds the load, the power output of the superconducting magnetic energy storage system that stores energy can compensate for the load mismatch.Compared with modern control systems, load frequency control systems based on superconducting magnetic energy storage have faster response times.
Spin reserve refers to the additional production capacity gained by increasing the power generation of grid-connected equipment.This capacity is reserved by the system operator to compensate for grid outages.Superconducting magnetic energy storage systems, due to their fast charging time and fast AC-DC conversion process, can be used as spinning backup when a large number of transmission line grids are out of service.
The protective relay prevents the circuit breaker from reclosing when the power angle difference between the circuit breakers is too large.In this case, a superconducting magnetic energy storage system can be used to reduce the power angle difference between circuit breakers.Therefore, the circuit breaker can be re-closed.These systems can quickly restore system power after a large transmission line outage.
Superconducting fault current limiters are used to limit current flow during grid faults.When a grid fault is detected in this system, the superconductor is quenched and heated.When a superconductor is quenched, its resistance rises and the current is directed to other grid lines.This is achieved without disrupting the wider grid.Once the fault is cleared, the temperature drops and it becomes invisible to the wider grid.
Of course, in addition to being used to store electrical energy in daily life and production, superconductors also have greater application in weapons, that is, they are used to make battery cannons.
The principle of the electromagnetic launcher is to use a magnetic field to accelerate projectiles to extremely high speeds for launch.To function, these systems require high-power pulsed sources.The rapid release capabilities and high power density of superconducting magnetic energy storage systems can be used to create these launch devices.
For example, the barrel of Bailixiu's star-piercing electromagnetic sniper gun that has been upgraded to the king level is made of superconducting coils, and it is also a room-temperature superconducting material. It is precisely because of this that only that A big barrel can produce that much power.
So after Bailixiu figured it out, Bailixiu's Thunder Fruit actually awakened.
Just like the awakening of Aoki Akainu's fruit changes the environment, the awakening of Yuri Xiu's thunder fruit also changes the environment.
The change in this environment was also very simple, that is, Bailixiu turned the ground material around him into a superconductor, and it was also a normal-temperature superconductor.
Of course, room-temperature superconductors are also called high-temperature superconductors. After all, compared to those superconductors that operate at more than 100 degrees below zero, normal superconductors at [-] or [-] degrees Celsius are also considered high-temperature superconductors.
(End of this chapter)
So Yurixiu began to use the Thunder Fruit to compare Aokiji and Akainu's Devil Fruit awakenings. If Yuurixiu's Thunder Fruit awakens, what should he do to change the landscape environment so that an island is filled with long-lasting thunder and lightning?
Thinking, thinking, Bailixiu couldn't help but have a flash of inspiration in her mind, and Bailixiu immediately caught the inspiration.
At that time, Baili Xiu was thinking about what could be used to store lightning. Naturally, his first idea was a device that could store electricity, and among all electricity storage methods, the best battery was naturally a superconductor storage battery.
Although the world before Bailixiu traveled through had not yet realized normal-temperature superconducting materials, very-warm superconductors had already appeared. Therefore, the superconducting energy storage materials used in Bailixiu's world were all very-temperature storage materials. Energy materials.
While superconducting magnetic energy storage was originally used for large-scale load balancing, due to its rapid discharge capabilities, it has been deployed in power systems for pulsed power and system stability applications.
Superconducting magnetic energy storage technology is a new technology that stores grid power in the magnetic field of superconducting coils, and its energy loss is close to zero.
Superconducting magnetic energy storage systems are grid-driven devices that can store and release large amounts of energy almost instantaneously.To compensate for rapid losses or drops in line power, the system may release large amounts of power for a small portion of a cycle.As grid lines become increasingly congested and renewable energy sources such as wind and solar become increasingly popular, intentional injections of ephemeral power can play a key role in ensuring grid resilience.
Superconducting magnetic energy storage systems combine superconducting, cryogenic and power electronics technologies.A standard superconducting magnetic energy storage system consists of four parts: power conditioning system, superconducting coil magnet, cryogenic system and controller.
Of course, if the technology of normal-temperature superconductors is popularized, low-temperature technology will be eliminated.
As for how superconductors store energy, it is simple. Because superconductors are materials with zero resistance, the current passes through the coil formed by the superconducting wire to store energy.
Because there are no losses, when the coil is short-circuited, the current remains constant and creates a magnetic field, similar to an MRI coil.Energy is therefore stored in the coil in both magnetic and electrical forms and can be recovered within a relatively short period of time.
The coil must be superconducting, otherwise the energy would be wasted in milliseconds due to the Joule effect.Superconducting magnetic energy storage systems have high power density and moderate energy density, almost unlimited number of charge and discharge cycles, and high energy conversion efficiency of more than 95%.
A superconducting magnetic energy storage system is more like a pulse current source than an energy storage device.Therefore, superconducting magnetic energy storage systems are the best choice for uninterruptible power systems or some flexible AC transmission systems, which are static devices used to improve the power grid.
Using superconducting magnetic energy storage has many advantages over other energy storage.The most significant benefit of superconducting magnetic energy storage is the minimal time delay between charging and discharging.Electricity is available almost instantly and can provide very high power output for short periods of time.
Therefore, if the need is immediate, superconducting magnetic energy storage is a viable option.Another advantage is that because superconducting coils have almost zero resistance, they consume less power than other memory systems.
In the world before Bailixiu's time travel, electricity was almost the main energy source. Superconducting magnetic energy storage systems had three main application scenarios: control systems, power supply systems, and emergency systems.
The utilization of electricity requires reliable and stable power supply.This stability is determined by the amount of electricity consumed and produced.Energy usage fluctuates during the day and throughout the seasons.The superconducting magnetic energy storage system can store energy when the power generation is greater than the demand/load and release the energy when the load is greater than the power generation.Therefore, power fluctuations are compensated.Uninterruptible power supplies provide continuous power to prevent power spikes and shortages.This compensation is achieved by switching from a failed power source to a superconducting magnetic energy storage system, which can provide the power needed almost immediately to keep critical systems running.
The load may be greater than the rated output power of the generator when the load does not match the output power produced due to load disturbances.This happens, for example, when a wind turbine stops spinning due to a sudden lack of wind.
This load disturbance may cause load frequency control problems.When the power generation exceeds the load, the power output of the superconducting magnetic energy storage system that stores energy can compensate for the load mismatch.Compared with modern control systems, load frequency control systems based on superconducting magnetic energy storage have faster response times.
Spin reserve refers to the additional production capacity gained by increasing the power generation of grid-connected equipment.This capacity is reserved by the system operator to compensate for grid outages.Superconducting magnetic energy storage systems, due to their fast charging time and fast AC-DC conversion process, can be used as spinning backup when a large number of transmission line grids are out of service.
The protective relay prevents the circuit breaker from reclosing when the power angle difference between the circuit breakers is too large.In this case, a superconducting magnetic energy storage system can be used to reduce the power angle difference between circuit breakers.Therefore, the circuit breaker can be re-closed.These systems can quickly restore system power after a large transmission line outage.
Superconducting fault current limiters are used to limit current flow during grid faults.When a grid fault is detected in this system, the superconductor is quenched and heated.When a superconductor is quenched, its resistance rises and the current is directed to other grid lines.This is achieved without disrupting the wider grid.Once the fault is cleared, the temperature drops and it becomes invisible to the wider grid.
Of course, in addition to being used to store electrical energy in daily life and production, superconductors also have greater application in weapons, that is, they are used to make battery cannons.
The principle of the electromagnetic launcher is to use a magnetic field to accelerate projectiles to extremely high speeds for launch.To function, these systems require high-power pulsed sources.The rapid release capabilities and high power density of superconducting magnetic energy storage systems can be used to create these launch devices.
For example, the barrel of Bailixiu's star-piercing electromagnetic sniper gun that has been upgraded to the king level is made of superconducting coils, and it is also a room-temperature superconducting material. It is precisely because of this that only that A big barrel can produce that much power.
So after Bailixiu figured it out, Bailixiu's Thunder Fruit actually awakened.
Just like the awakening of Aoki Akainu's fruit changes the environment, the awakening of Yuri Xiu's thunder fruit also changes the environment.
The change in this environment was also very simple, that is, Bailixiu turned the ground material around him into a superconductor, and it was also a normal-temperature superconductor.
Of course, room-temperature superconductors are also called high-temperature superconductors. After all, compared to those superconductors that operate at more than 100 degrees below zero, normal superconductors at [-] or [-] degrees Celsius are also considered high-temperature superconductors.
(End of this chapter)
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