Can a DC Generator utilise Wastage Energy in a Traction System
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Can a DC Generator utilise Wastage Energy in a Traction System |
DC Generator most of the time motors used in traction systems or e cars . There are some reasons for this, the main part is loss.
e-cars or traction systems powered battery or solar panels. If the amount of loss is higher in all these cases then the overall efficiency of the total system will decrease.
So we will discuss some things in this topic to reduce the losses in the whole system to make the efficiency of e-car or traction system more than normal. example some kinetic energy is lost while driving which we cannot utilize.
If we can recharge the battery by generating a DC supply through that kinetic energy DC generator, then the mileage of that car will be much higher than normal.
we must first say that when the car starts to move, sometimes there is acceleration, most of the time it is retardation.In other words, if we look at our traction carve.
we will understand that first the acceleration, then the speed of acceleration remains normal for a long time, then it goes to retardation.
In other words, if we look at our traction carve, we will understand that first the acceleration.Then the speed of acceleration remains normal for a long time, then it goes to retardation.we can try to utilise the power of retardation .
DC Generator
We also know that the DC generator works on Faraday's electromagnetic induction DC generator to generate electricity by helping the commutator and brush.
Mechanical power drives the DC generator shaft to generate electricity e in the output terminal. We do not give a detailed explanation of the DC generator.
DC generators are classified by many types. Not all of these traction systems work. Only flat compound DC Generator
Traction system
The traction system is the motor that can move a system from one place to another using the tractive force.Now the question is what kind of system comes into the tractive system. Such as railway engines, smart e-car etc.
Breaking
Braking in electric traction system is usually of two types one is electrical braking and mechanical braking. This one works equally well in both braking in a traction system. Electric Breaking is very much Efficient then Mechanical breaking.
Categories of Breaking
There are three types of traction electric braking
For which reason in this word(utilize wasted energy) is coming?
We need to think of some alternatives for the way the world is currently running out of fuel. Scientists and engineers have been able to find alternatives, but they have some problems that need to be addressed.
Some recharge agencies have said that in 10 years our world will start running out of fuel. Then the logistics of our vehicles will be solar energy or e-car.The only problem with driving an e-car now is the mileage.
This mileage is very important. If we want to drive the vehicles of the future properly, then we have to think about increasing the mileage.This concept is a concept that has been proven to be a theory but have not use in practice for some marketing issues.
A car never or always has acceleration. Sometime before the relationship is what we call an instance of retardation. In those cases, it is hoped that we can increase the mileage of all these vehicles by using the kinetic energy generators.
Operation
This type of E-car usually consists of two units, the first being the unit . Another unit that uses the wasted energy to recharge the battery.The main tractive motor is usually a DC series motor. Because the amount of torque required to run the entire car is the amount of torque.
That can be used to make a high speed motor into a high torque DC motor through a gear arrangement with the DC motor..
Lots of high speed motors at DC series motor no load. This high speed motor converts a lot of high torque motors through garage arrangement. First of all it is said thano car is always accelerate. The car has a 30% -40% retardation while running.A DC shunt generator will go through the speed conveyor belt at the speed that the high torque gears will produce during that retardation.
The generator will be connected to a battery that will charge the battery through the waste torque generated from the traction mechanism. Or when a car travels on a plane. Then the DC shunt generator battery will be able to recharge very well .
How much energy will be recovered
Since the amount of DC supply loss is very low. So hopefully the recovery system will not be like that. Until now, a four-cell car could provide 12 hours of backup using this system, now it can provide 16 to 17 hours of backup using that system. In the case where the distance is not constant, however, there is little evidence that the battery backup rate has increased by 20-30 percent since the introduction of this system.
Conclusion
In the next 10 years, some such systems will rule the world. Due to the current energy crisis and the fact that the environment is becoming more conducive to environmental pollution, the governments of different countries may stop fuel vehicles after a few years. They will only bring battery cars to the current market.
Next Decade completely depends on Renewable power sources. Solar car ,and Fuel cell cars are developed by some companies but the price is very high.Let's see if we will find a technology that will be affordable car price.
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