power generation from speed breaker

1. WELCOME

2. POWER GENERATION USING SPEED
BREAKER

3. CONTENT
1. Introduction
2. Scope , merits and uses
3. Basic principle
4. Gear
5. Roller mechanism
6. Rack and pinion mechanism
7. Comparison
8. Conclusion

4. INTRODUCTION
 In our country there is a shortage of electricity
and we try to overcome this problem by non
conventional sources of energy.
 To sort out the energy crises it led to the idea of
generating power using speed breaker.
 A large amount of energy is wasted by the
vehicles due to friction.
 Electricity can be generated using vehicles by its
motion (Kinetic Energy) and weight (Potential
Energy) as an input.

5. Scope, Merits and Uses
 Low budget electricity production.
 Low floor area and no obstruction to traffic.
 Easy maintenance.
 Energy available through out the year.
 Pollution free power generation.
 No fuel transportation required.
 No need of man power during power
generation.
 More suitable and compact mechanism to
enhance efficiency.
 Uses : Charging batteries and using them
to light up the streets etc.

6. Basic Principle
 Simple energy conversion from
mechanical to electrical.
 To generate the electricity using the
vehicle’s speed and weight as input.
 Possible using 2 different mechanisms
Roller mechanism
Rack and pinion mechanism

7. Gear Mechanism
 A mechanism for transmitting motion for some
specific purpose.
 GEAR : A gear is a wheel with teeth on its outer
edge.
 The teeth of one gear engages with the teeth of other.

8. Gear
 Two meshed gears always rotate in
opposite directions.
 Two gears are of different diameters.
Driven gear
Driver gear

9. Gear ratio
 Generally, the gear ratio is
calculated by counting the teeth of
the two gears, and applying the
following formula :
Gear ratio = Number of teeth on driven gear
Number of teeth on driver gear

10. Gear ratio- calculation
 A 100 tooth gear drives a
25 tooth gear . Calculate the
gear ratio of the meshing teeth.
Gear ratio = Number of teeth on driven gear
Number of teeth on driver gear
Gear ratio = driven 25 = 1
driver 100 4
This is written as 1:4

11. ROLLER MECHANISM
Roller mechanism has some disadvantages :
 Maintenance will be very difficult.
 Might cause collision.

12. RACK AND PINION MECHANISM
The various equipments are :
 Rack-pinion
 Sprockets
 Gears
 Flywheel
 Dynamo

13. Rack and pinion- It convert linear motion to
rotational and vice versa
sprocket mechanism-transfer rotary
between two shafts
Flywheel- this is use to regulate the energy and
maintain the energy at an uniform level so that the
shaft rotate at an uniform r.p.m
Dynamo- It is the dc generator which is
use to generate current . Generates current as per
the faraday’s law.

14. CONSTRUCTION

15. Working procedure
 Here the reciprocating motion of the speed-breaker is converted
into rotary motion using the rack and pinion arrangement.
 Rack and pinion gears normally change rotary motion into linear
motion, but sometimes we use them to change linear motion into
rotary motion.
 The axis of the pinion is coupled with the sprocket arrangement.
 The axis of the smaller sprocket is coupled to a gear arrangement.
 Finally the gear arrangement is coupled with the generator.

16. COMPARISON
Sr no. parameters Roller
mechanism
Rack and
pinion
mechanism
1 Cost Cheap Moderate
2 Mechanism
setup
Very easy difficult
3 Maintenence Weekly basis Daily basis
4 Efficiency ~50% ~70%
5 Design Easy to design Depend upon
weight
sustaining
capacity

17. Voltage generated (vs.) speed of
vehicle
Speed of vehicle(kn/hr) Voltage generated(volts)
10 7.93
20 6.28
30 5.03
40 4.66
50 3.03

18. Voltage generated (vs.) Load
Load(kgs) Voltage generated(v)
60 8.33
130 9.45
170 10.22
200 11.23
270 11.81

19. Conclusion
 Power generation does not require any fuel
input and the running cost is very less.
 There are some non- conventional methods of
producing energy. This project is a step to path
of exploring the possibilities of energy from
several non- conventional energy sources.

20. THANK YOU