How to use an Electric Motor to recharge a battery.

In summary: Your idea of adding a second motor to act as a full-time generator while leeching power from the main motor is completely without merit. Say for example that your "generator" was producing 1.0 Amps into your battery, then the primary motor current would increase by about 1.2 Amps (or more) just to overcome the extra drag caused by the generator. There is no way around this, the efficiency of both machines is than unity.One problem with regenerative braking is that the motor which normally drives the wheels of the car produces less voltage than it was getting from the battery when it becomes a generator.
  • #1
alebbing
24
0
Does anyone know how to use an electric motor to charge a DC battery? I read on ehow.com that all you need to do is find a way to spin the shaft and it produces electricity that will charge the battery? Is that true, is it that simple?
 
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  • #2
Electric motors aren't good for that because the voltage is tiny. Motors are high current low voltage transducers, so you'll have to spin it VERY quickly to charge a battery.
 
  • #3
In theory it's quite simple. Typically a battery spins a motor using the Faraday effect. If the battery is rechargeable, you can basically put the process into reverse and spin the battery to put energy into the battery.

However, like Curl implied, the practical issues at hand may be too much.
 
  • #4
Here is why I ask the question. I am building an electric bike from random parts and I have 2 permanent magnet motors. So I was thinking if I were to hook up the second motor as part of the gear system I could use it as a trickle charger. Does that make sence? It would be spinning around 900 rpm would that be fast enough to do anything?
 
  • #5
No. Your bike would be better if you left all that off. It will be lighter.
You won't gain anything from your charger (are you thinking of recovering energy when going downhill?)
 
  • #6
alebbing said:
Here is why I ask the question. I am building an electric bike from random parts and I have 2 permanent magnet motors. So I was thinking if I were to hook up the second motor as part of the gear system I could use it as a trickle charger. Does that make sence? It would be spinning around 900 rpm would that be fast enough to do anything?

An electric motor can certainly be used as a generator (or alternator depending on the motor type) to charge a battery, this is how "regenerative braking" works on electric vehicles.

Your idea of adding a second motor to act as a full-time generator while leeching power from the main motor is completely without merit. Say for example that your "generator" was producing 1.0 Amps into your battery, then the primary motor current would increase by about 1.2 Amps (or more) just to overcome the extra drag caused by the generator. There is no way around this, the efficiency of both machines is than unity.
 
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  • #7
One problem with regenerative braking is that the motor which normally drives the wheels of the car produces less voltage than it was getting from the battery when it becomes a generator.

Theoretically, it would be possible to use a voltage boost circuit to step up the voltage from the generator to a high enough voltage that you could charge the battery with it. Boosters like this are available on Internet's Ebay.
http://www.ebay.com/itm/12-35V-DC-Adjustable-Boost-Power-Supply-Module-150W-/110723724780?pt=AU_B_I_Electrical_Test_Equipment&hash=item19c7a5f5ec
This is just an example. It needs at least 10 volts into produce up to 35 volts out.

To do this, you would need to disconnect the battery from the motor.

This would require a switch that was controlled by the mechanics of the machine.

An example of this would be the chain on a bicycle. If the chain is loose, it loops downward at the bottom when it is being driven by the rider, but it becomes loose at the top and tight at the bottom if the back wheel is driving the pedals. (Modern bikes make this impossible, but old, direct drive bikes used to do this.)

So, you could have a toothed wheel pressing on the chain and operating a switch if the chain is pulled tight. This could then switch in the voltage booster which could charge the battery.

Note that this is discussion material only and not a how-to-do-it guide.
 
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  • #8
Pengwuino said:
you can basically put the process into reverse and spin the battery to put energy into the battery.

Incredible! Whatever will they invent next? :wink: :wink:
 
  • #9
Concur with uart.

Regenerative braking, maybe. In theory.

But you cannot try to recover energy while your motor is trying to move the bike. The recovery process will put an additonal load on the battery, leeching off it, draining it as fast as (actually faster than), you can recover it, netting you nothing (actually, a loss).

Classic perpetual motion error.
 
  • #10
Im not planning on using charging the battery solely with the generator. I am thinking that since I have the extra motor and the space I could probably use it to be a trickel charger. Not as the permanent charging device but just to extend the battery life while riding.
 
  • #11
The efficacy of regenerative braking (or simply charging a battery) depends on the terrain you typically expect to be riding on. If it comprises long flat stretches, and you are energetic and would welcome putting some extra effort into your peddling, then go for it. Similarly, if it involves long downhill glides where you need to wash off speed anyway, again, go for it. But if you are peddling around town, stop, go, up short hills, then down a bit, repeatedly, you won't have energy to spare. You'll want the downhill stretch to take a breather and gain a bit of speed to get you up the next rise. (I'm picturing "battery-assist" bike riding, here.)

From some years back I recall that regenerative braking on electric cars typically extended their range by merely 10%. All that extra gadgetry, expense, and weight for a miniscule gain meant it was not worth the effort. Hopefully, maybe it is not so uneconomical today.
 
  • #12
If you have some way to mount a solar array, that would give you trickle charge, both while riding and while parked! Providing you were out on sunny days.
 
  • #13
I don't know what a "trickle charge" is, but however much extra you will charge the battery, that's at least how much extra the battery will drain in order to charge itself.

Runnign this proposed process:

Battery chemical energy > electrical energy > mechanical energy > electrical energy > battery chemical energy

is clearly not as efficient as just leaving the battery chemical energy alone.
 
  • #14
alebbing said:
Im not planning on using charging the battery solely with the generator. I am thinking that since I have the extra motor and the space I could probably use it to be a trickel charger. Not as the permanent charging device but just to extend the battery life while riding.

No.

You are trying to use the energy in the battery to recharge the battery. You gain nothing. Period.
Unless ...
...you plan to recharge while under pedal power with motor off. That would work - you'd be using human muscle power to recharge the battery.

But let me tell you, there's nothing that sucks more than trying to ride a bike that has a generator attached. It is hard work. The bike will not coast; it will slow to a stop rapidly unless you work to keep it moving - and that's tiring. Defeats the purpose. (Ultimately, what what is the point in an electric bike if it is actually powered by you? Skip the whole contraption and use the bike as a bike.)
 
  • #15
Lsos said:
I don't know what a "trickle charge" is, but however much extra you will charge the battery, that's at least how much extra the battery will drain in order to charge itself.

Runnign this proposed process:

Battery chemical energy > electrical energy > mechanical energy > electrical energy > battery chemical energy

is clearly not as efficient as just leaving the battery chemical energy alone.

When the vehicle is moving and you have to stop, you can use conventional brakes and burn up the kinetic energy in heat, or you can use the kinetic energy to run the motor as a generator and use the power generated to charge the battery.

Nobody is talking about perpetual motion. This technique is standard in electric and in hybrid cars.
 
  • #16
In addition to all the theoretical objections to some of what you are planning, there is a practical issue. The motor /generator you want will not be designed the same as the motor you have. You can buy bikes which charge a battery to help you up hills but their motors are specially designed. I think you would find one of them (plus a good battery and the right control circuitry) may be as expensive to buy (one off) as buying one of those fancy bikes already made up for you.

What's wrong with hanging onto the back of a truck to get you up hills anyway? haha
 
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  • #17
vk6kro said:
Nobody is talking about perpetual motion. This technique is standard in electric and in hybrid cars.

It's not so clear to me that this discussion is not about perpetual motion..unless the term "trickel charger" has some special meaning that I don't know about.
 
  • #18
The OP seemed to imply it but the conversation has gone beyond it without shooting anyone.
 
  • #19
DaveC426913 said:
But let me tell you, there's nothing that sucks more than trying to ride a bike that has a generator attached. It is hard work. The bike will not coast; it will slow to a stop rapidly unless you work to keep it moving - and that's tiring.
I used to ride a bike with, for its time, the standard dynamo friction-driven against the side of the rear tyre. 6vac 1.2amp it was rated, and on callow fingers would give a fair tickle.

I knew when it was operating that I had to put more effort into peddling, but it wasn't a showstopper. (Except when I came to really steep hills.)

How does the OP view 6 vac at 1amp for his application? (You did say "trickle" charger. :smile: )
 
  • #20
The Dynohub was a bit better than that. Not much friction loss - pretty well perfect for a cycle lamp. There days, they could be a lot better, with the posh magnets that are available. You would need to find a way of making it into a motor but the gearing (1:1) would make it pretty unsuitable.
 
  • #21
You know, after reading so many instances of people wanting to do this type of thing (OP), I think there should be some sort of mandatory science experiment that all students are required to do before they even let them out of elementary school.

Something like cranking a hand generator for 3 minutes at no load and then repeating it with a 12 watt light globe connected and describing the differences encountered.
 
  • #22
I have done just this thing and it always surprised students - even with a pea bulb.

When I was young and foolish (14, I think), I had two dynamos on my bike and two headlamps for the dark country lanes. It was real hard work and I only used both lamps / dynamos when going downhill. You could 'hear' all the wasted energy in the rumbling and squealing of the pulley wheels against the tyre.
 
  • #23
sophiecentaur said:
The Dynohub was a bit better than that. Not much friction loss - pretty well perfect for a cycle lamp. There days, they could be a lot better, with the posh magnets that are available. You would need to find a way of making it into a motor but the gearing (1:1) would make it pretty unsuitable.

Yep I've used both types in the past. These days the improvements in rechargeable batteries and LED's has made huge improvements in bicycle lighting and pretty much made the use of dynamos obsolete.
 
  • #24
vk6kro said:
Nobody is talking about perpetual motion. This technique is standard in electric and in hybrid cars.
I disagree. Each time it is brought up in this thread, it is not mentioned that they mean regenerative braking only. It certainly seems that the posters are hoping to literally recharge the battery while using it to power the bike.
 
  • #25
uart said:
You know, after reading so many instances of people wanting to do this type of thing (OP), I think there should be some sort of mandatory science experiment that all students are required to do before they even let them out of elementary school.

Something like cranking a hand generator for 3 minutes at no load and then repeating it with a 12 watt light globe connected and describing the differences encountered.

You are perfectly right. This should be a mandatory experiment in elementary school science classes.
 
  • #26
My Dad put me right on this one when I was about 11. It's a big help to start that way of thinking when you're young.

The problem with doing an experiment to prove it is that they'd just say "Use more oil" or "just gear it up a bit".
 
  • #27
sophiecentaur said:
The problem with doing an experiment to prove it is that they'd just say "Use more oil" or "just gear it up a bit".

I dunno. The idea is that their minds are open and receptive. When they actually see the resistance a generator puts on a spinning wheel, it will be glaringly obvious that the battery is under heavier load to power that generator. I think it'd be a lesson they'd remember forever.
 

1. How does an electric motor recharge a battery?

An electric motor works by converting electrical energy into mechanical energy, which can be used to rotate a shaft. This rotation can then be used to turn a generator, which produces electricity to charge the battery.

2. What type of battery can be recharged using an electric motor?

Most types of rechargeable batteries can be recharged using an electric motor, including lithium-ion, lead-acid, and nickel-metal hydride batteries. However, the specific charging process may vary depending on the type of battery.

3. What is the efficiency of using an electric motor to recharge a battery?

The efficiency of using an electric motor to recharge a battery can vary depending on the type and condition of the battery, as well as the efficiency of the motor and generator. Generally, the efficiency can range from 70% to 90%.

4. Can an electric motor be used to recharge a battery while the battery is in use?

Yes, an electric motor can be used to recharge a battery while it is in use. However, the charging process may take longer and the battery may not reach its full capacity if it is being used at the same time.

5. Are there any safety precautions to consider when using an electric motor to recharge a battery?

Yes, there are a few safety precautions to keep in mind when using an electric motor to recharge a battery. It is important to use the correct voltage and current for the battery, and to avoid overcharging the battery. It is also important to handle the battery and any electrical components with caution to prevent electric shocks or injuries.

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