5. 1. Why is it still not available in the
market?
3. whats new we are doing ?
2. Whats the problem in this, and
how we have solve it ?
6. Progress report
• Project Inception:
• defined project objectives, scope, and overall goals.
• Literature Review:
• Completed comprehensive research on existing compressed air
and solar-powered vehicle projects, extracting valuable insights
and identifying potential areas for improvement.
• Market Research:
• Successfully conducted thorough market research, gaining
insights into market demand, potential users, and competitors
within the sustainable transportation sector.
• Conceptual Design:
• Developed and finalized initial designs for the vehicle's
structure, air compression system, and energy conversion
mechanism.
• Material Selection:
• Completed the selection of materials conducive to lightweight
construction and optimal efficiency.
7. Air compressor
• Material: Aluminium
• Item Weight: 1150 Grams
• Power Source: Corded Electric
• Air Flow Capacity: 150 cc/sec
• Maximum Pressure: 150 Pound per Square Inch
• Operation Mode: Electric Powered 12v DC
• Item Dimensions (LxWxH): 22 x 18 x 14
Centimeters
The air compressor in our project pressurizes and stores ambient
air, serving as the primary energy source for propulsion. Powered
by a 12V battery charged with a solar panel, it efficiently converts
compressed air into controlled motion, driving the wheels and
contributing to a sustainable, eco-friendly vehicle.
9. Double Acting Pneumatic Air Cylinder
• Action type: Double acting
• Working fluid: Air
• Bore: 16mm
• Stroke: 125mm
• Maximum operating pressure: 10
bar
• Maximum theoretical force: 14 kgf
• Piston rod diameter: 6mm
• Rod thread diameter: M5
• Port size: M5
• Piston port size: M6x1
The Double Acting Pneumatic Air Cylinder in our project is
integral for propulsion. It alternately pressurizes and releases
air, generating reciprocating motion through a pistonic solenoid
valve, converting it into circular motion to drive the wheels
efficiently, contributing to the vehicle's unique compressed air-
powered mechanism.
10. double-acting pneumatic cylinder
Add a little bit of body
text
A double-acting pneumatic air cylinder operates by utilizing compressed air to generate
reciprocating motion in both extending and retracting strokes. Compressed air is
introduced alternately to each side of the piston, allowing for controlled and
bidirectional movement. This design enables precise and efficient mechanical actuation
in various applications, such as automation and machinery.
11. A Review of Compressed Air Car Technology: Challenges and Potential by A. M. K. Esmail,
M. S. A. Majeed, M. A. Rahman, and M. H. Hizam (2017). This paper provides a
comprehensive overview of compressed air car technology, discussing its history, design,
and potential applications. It also identifies the challenges that need to be overcome
before compressed air cars can become commercially viable.
12. Compressed Air Vehicles: A Novel Green Transportation Solution? by T. Morel (2009).
This paper discusses the potential benefits of compressed air vehicles, such as their zero
emissions and low operating costs. It also identifies the challenges that need to be
overcome before compressed air vehicles can become a mainstream transportation
option.
13. Compressed Air Vehicles: History, Technology, and Future Prospects by J. D.
White (2013). This paper provides a detailed history of compressed air
vehicles, dating back to the early 1800s. It also discusses the current state of
the technology and the future prospects for compressed air cars.