17-03-2011, 04:25 PM
PRESENTED by
S.SANTHOSH KUMAR
596379_634233404518013750.ppt (Size: 2.06 MB / Downloads: 681)
What is Pneumatic vehicle ?
INTRODUCTION
The vehicle uses fluid system instead of the Internal Combustion engine.
Will help save the non-renewable sources of energy.
Will help in reducing the problem of global warming since two wheelers contribute to the problem the most.
Working Methodology
Reciprocating piston of pneumatic cylinder drives the crank shaft.
Power system consists of electric motor and pneumatic cylinder.
Electric system helps in overcoming the initial torque to drive the vehicle with load.
Electric motor is active until about 20 km/hr.
Switchover of power to pneumatic cylinder takes place by relay operations.
Torque sensor is the transducer.
Torque sensor converts the torque acting on the wheel into analog signal.
Analog signals are sent to relays thereby playing an immigrant part in switchover of power from electric motor to pneumatic cylinder.
Pneumatic Cylinder
Piston of pneumatic cylinder made to reciprocate continuously by means of sensors.
Sensors (reed switches ) are placed at either end of pneumatic cylinder.
Solenoids and solenoid valve control movement of piston of pneumatic cylinder.
Index Of Pneumatic System
Signals are fed to the solenoid valve by sensors.
The piston reciprocates based upon the side from the signal is fed from the cylinder to the solenoid valve.
The reed switches are of high precision and accuracy thereby giving approximately 450 strokes/min.
Speed And Braking
Speed is regulated by means of metering valve.
It meters the flow of air inside the cylinder.
Valve can be used to regulate the flow.
That is increase as well as decrease.
Braking is used to stop the vehicle at instantaneous hindrances.
Is achieved by the metering valve which completely stops the air flow.
Optimal design is achieved by considering the various design parameters.
Design Parameters
The various design parameters are:
1. Piston Diameter : The piston dia = 25mm
2. Flow Rate From Compressor : The flow rate required from the compressor is 0.25 L/s.
3. Power : The power delivered after initial
torque is overcome is about 0.89 HP-1 HP.
4. Torque : It is the essential parameter
T= 3.15 N-m is produced after initial torque is overcome.
5. Speed : The wheel rpm is made proportional
to engine rpm.
6. The max speed is about 51 km/hr.
Salient Features
1. Pollution free.
2. Light on the pocket.
3. Helps conserve gasoline.
4. Dynamic braking.
5. Reverse rotation capability.
6. Exhaust air sent back to atmosphere.
Drawbacks
Can’t take large load.
Conclusion
Even though the vehicle is in its early stages of development, It holds a lot of promise and provides scope for further research.
Now the responsibility is entrusted upon us as engineers of tomorrow to develop the concept and make it feasible so that it reaches the common man and we get a better environment to live in.