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
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.
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.
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,”.