Maintaining Constant Angular Velocity for Electricity Generation

Click For Summary
SUMMARY

The discussion focuses on maintaining a constant angular velocity in a hand-cranked electricity generator to stabilize the output current and electromotive force (emf). The user proposes a method to dissipate excess energy as heat while allowing the handle to rotate faster than the generator's required speed. A key insight is the necessity of an electronically controlled variable torque gearbox to manage input speed fluctuations, similar to mechanisms used in wind farms, which utilize high transmission ratios to achieve variable generator outputs.

PREREQUISITES
  • Understanding of electromotive force (emf) and current generation
  • Knowledge of angular velocity and its impact on generator output
  • Familiarity with variable torque gearboxes and their applications
  • Basic principles of energy dissipation and heat management
NEXT STEPS
  • Research electronically controlled variable torque gearboxes
  • Explore methods for dissipating excess energy in electrical systems
  • Learn about the mechanics of wind turbine gearboxes and their operation
  • Investigate techniques for stabilizing output voltage in generators
USEFUL FOR

Engineers, hobbyists, and inventors interested in renewable energy solutions, particularly those designing hand-cranked or wind-powered electricity generators.

Magma828
Messages
28
Reaction score
0
I'm thinking of making an electricity generator which is rotated by hand, or possibly something like wind, or gerbils on a treadmill etc etc..

Anyway, the current and emf produced would vary depending on the velocity at which the generator is turned, correct?

I therefore need a way of keeping the angular velocity constant. My idea was to somehow set a maximum velocity for the rotation of the generator, but not affect the velocity of the turning handle. I could rotate the handle at a velocity higher than the required velocity, and any extra energy could be dissipated as heat or something.

Does anyone have any ideas on how to accomplish this?

Or any other method which would keep the emf+current at a set value.
 
Engineering news on Phys.org
Magma828 said:
I'm thinking of making an electricity generator which is rotated by hand, or possibly something like wind, or gerbils on a treadmill etc etc..

Anyway, the current and emf produced would vary depending on the velocity at which the generator is turned, correct?

I therefore need a way of keeping the angular velocity constant. My idea was to somehow set a maximum velocity for the rotation of the generator, but not affect the velocity of the turning handle. I could rotate the handle at a velocity higher than the required velocity, and any extra energy could be dissipated as heat or something.

Does anyone have any ideas on how to accomplish this?

Or any other method which would keep the emf+current at a set value.

this would have been thought first by the electricity invnetor and that is why we are dependent on resources to produce electricity. In other word almost impossible
 
What exactly do you mean by 'dependent on resources'?
 
Magma828 said:
I'm thinking of making an electricity generator which is rotated by hand, or possibly something like wind, or gerbils on a treadmill etc etc..

Anyway, the current and emf produced would vary depending on the velocity at which the generator is turned, correct?

I therefore need a way of keeping the angular velocity constant. My idea was to somehow set a maximum velocity for the rotation of the generator, but not affect the velocity of the turning handle. I could rotate the handle at a velocity higher than the required velocity, and any extra energy could be dissipated as heat or something.

Does anyone have any ideas on how to accomplish this?

Or any other method which would keep the emf+current at a set value.

see the system you are talking to BUILD/DESIGN will need a brain to analyze that the input speed is reducing/increasing and send the data to the output speed controller to keep the output speed constant.

this is very difficult (if not impossible) as you will need an electronically controlled variable torque gearbox to link your generator to the source of input
 
How on Earth do wind farms work then? Do they just have a complex gearbox that has to be continuously adjusted?
 
no but don't forget that wind farms DO NOT produce a constant voltage output. the gear box inside is mechanical with a very high transmission ratio i.e. small movement of blade results in significant rpm of the generator.
and it is a variable generator and that is the only reason wind turbines are not considered primary sources of power.
 

Similar threads

Undergrad Confusion about adding angular velocities
  • · Replies 4 ·
Replies
4
Views
2K
Change in Angular Velocity While Orbiting With No Torque
  • · Replies 30 ·
2
Replies
30
Views
4K
Undergrad Is energy really conserved?
  • · Replies 39 ·
2
Replies
39
Views
3K
Graduate Orbital and spin angular velocity?
  • · Replies 17 ·
Replies
17
Views
3K
Undergrad Can Angular Velocity Accurately Control Ragdoll Limbs in Game Physics?
  • · Replies 6 ·
Replies
6
Views
3K
Tipping of a cabinet and determining velocity at a given point?
  • · Replies 2 ·
Replies
2
Views
2K
Torque calculations: Rotating vertical shaft
  • · Replies 5 ·
Replies
5
Views
5K
Can Constant Velocity Produce Zero Torque?
  • · Replies 4 ·
Replies
4
Views
4K
Calculating Maximum Velocity Electric Longboard
  • · Replies 8 ·
Replies
8
Views
4K
Maximum torque required to turn the wheel along the vertical axis
  • · Replies 9 ·
Replies
9
Views
2K