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1. Power Generation Through Speed Breaker
PRESENTED BY :
BARKAT MAJEED
MUZAFFAR AHMAD
SALIM AYOUB
ABDUL KARIM
MOHAMMAD IQBAL
ISHFAQ AHMAD
Government College Of Engineering And Technology ,Safapora

2. CONTENTS :
• Introduction
• Methodology
• Working Principle
• Components
• Assembled Figure
• Block Diagram
• Power Calculation
• Merits
• Future scope
• Conclusion

3. Introduction
• A large amount of energy is wasted at the speed breaker every time
vehicle pass over it.
• Here we propose a smart speed breaker that generates energy .
• Useful energy can be generated by utilizing the vehicles weight.
• As per Ministry of Road Vehicle and Highway, more than 365.2 million
vehicles have been registered in the year 2021.

4. Methodology
• Different mechanism involved in power generation through speed
breaker are :
• Rack and Pinion mechanism .
• Crank Shaft mechanism .
• Roller mechanisms .
• Two Dynamo’s are used to produce energy .
• Specially designed compression springs are used to drive back the
speed breaker to its initial position.

5. Rack Pinion Mechanism

6. Working Principle
• The principle involved is potential energy to
electrical energy conversion.
• Rack and Pinion mechanism are responsible for
Energy transfers.
• Two dynamo are used for generation of
electrical energy .
• Specially designed two compression springs
used for continuous process.

7. Components
Rack and Pinion Dynamo Compression Spring

8. Voltage Regulator Battery
Contd.
LCD Module

9. Assembled Figure

10. Block Diagram

11. Power Calculation
The mass of a vehicle = 500 Kg (Approximately)
Height of speed breaker = 10 cm
Work done = Force * Distance
Force = Weight of the Body
=500 Kg x 9.8
=4900 N
Distance travelled by body = Height of speed breaker = 10 cm
Output power = Work done/Sec = (4900 x 0.1)/60 = 8.166 W
Power developed for 1 vehicle passing over the speed breaker
arrangement for one minute is 8.166 W

12. Merits
• This technology produces clean energy, which does not emit any
pollutants
• This technology is relatively low cost compared to other renewable
energy sources
• This technology is easy to install and maintain, as it does not have
various mechanical moving parts.

13. Future Scope
• Smart city integration
• Electric vehicle charging
• Large- scale implementation

14. Conclusion
• The power generation through speed breaker technology can be
particularly useful in rural areas where access to electricity is limited.
• The generated power can be used to power street lights, traffic
signals, and other low-power applications.

15. References
• D mitriev, "Electric Power Generating Speed Bump," Google Patents,
2012.
• Ali Azam, "Speed Breaker Power Generation", IJAET, Volume 7, Page 2,
2014.
• Aniket Mishra "Electricity Generation By Speed Breaker", IJES, Volume
2, Page 25, 2013
• Abdul Razzak Pathan, Aniket Garate, Karthikeyan N and Sonali
Retharekar, “Power generation through speed breaker,”.