This document presents a project proposal on gravity ropeways. A group of 4 students will study gravity ropeways under the supervision of Mr. Hemant Chauhan. Gravity ropeways use gravitational force and pulley systems to transport goods and people up and down slopes. The presentation will cover the objectives, introduction, terminology, operation principles, calculations, applications, features, impacts, and recommendations of gravity ropeway systems. It will rely on references from previous studies on aerial ropeway technologies and experiences.
1. GRAVITY ROPEWAY
“Ropes for Hopes”
PPT
OF MINOR PROJECT
BACHELOR OF TECHNOLOGY
Mechanical Engineering
Submitted by
Mohammad Yavar Khan (201340104007)
Aman Parashar (201340104001)
Dikshant Bhardwaj (201340104004)
Suhail Ansari (201340104012)
Under The Supervision
of
Mr. Hemant Chauhan
Institute of Technology Gopeshwar
(A Campus Institute of VMSBUTU Dehradun)
KOTHIYALSAIN, CHAMOLI, UTTARAKHAND, 246424, INDIA
2. CONTENT
Objective
Introduction to Gravity Ropeway
Why it is Important?
Major Terminologies
Operation
Working principle
Calculation
Applications
Features
Impacts
Recommendations
References
3. Gravity Ropeway
Gravity ropeway is simple mechanism of rope and wheel.
Rare and restricted to unique and often challenging context, but an
effective solution.
Gravitational force is most reliable, spontaneous and never ending source
of energy and it’s free.
Gravity ropeway operates under principal of gravitational force without
any external power.
5. NEED?
Rare and restricted to unique and often challenging context, but an effective solution.
Fig 02: Life before and after Gravity Ropeway
6. Major Terminologies
Support cables or track ropes:
o Provides support to trollies
o Attached in two different towers
Supporting tower:
o Steel or concrete structure at upper or bottom station
. o Absorbs possible thrusts
Pulley :
o Provides motion to load
7. Major Terminologies
Station or platform:
o To land trolley and goods
o To place supporting parts
Hand brakes:
o Wooden brakes at bottom of station to control velocity of moving trolleys.
OR
o Manual brakes using safety rope within trolley
8. Operation of Gravity Ropeway
It is a pulley system, simply ropes and wheel.
A trolley , rolling over two separate supporting steel wire ropes suspended from
two separate towers (different altitude).
Reload wire ties around a pully system at higher altitude extremity to bring back
the trolley.
A hand brake can be integrated with flywheel or a manual speed control rope can
be attached to control the landing speed of the trolley at the bottom-station.
Loaded trollies at up-station is pulled downward by force of gravity.
10. Air Drag (Friction here)
In aerodynamics, drag refers to forces that oppose the relative motion of an object
through the air.
Drag always opposes the motion of the object and, in an aircraft, is overcome by thrust.
14. Features
Cost effectiveness
Time saving
Short route
Energy efficient
Environmental friendly
Simple technology
Nominal operation
Employment
Low transportation cost
Community involvement
15. Impacts
One step financial solution.
Income of villagers increased 3 times.
Linking opportunities.
Escalates school attendance.
Transportation cost reduced to 85% (data).
Time saving.
Increase market capacity.
Direct and indirect employment opportunities.
16. Recommendations
More research and development required to improve the technology.
Involvement of local community, private sector, local as well as central government.
Development of national policy about the technology.
Introduce insurance policy in ropeway.
Emergency treatment services and safety considerations.
More participation from development partners required.
17.
18. REFERENCES
[1] Alshalalfah, B., Shalaby, A., Dale, S., & Othman, F. (2013). Improvements and Innovations
in Aerial Ropeway Transportation Technologies: Observations from
Recent Implementations. Journal Of Transportation Engineering, 139(8), 814-821.
Retrieved from http://ascelibrary.org/doi/abs/10.1061/(ASCE)TE.19435436.0000548
[2] Alshalalfah, B., Shalaby, A., & Dale, S. (2014). Experiences with Aerial Ropeway
Transportation Systems in the Urban Environment. Journal Of Urban Planning and
Development, 140(1), Journal Of Urban Planning And Development, 2014 Mar 1, Vol.140(1).
Retrieved from http://ascelibrary.org/doi/abs/10.1061/(ASCE)UP.1943-5444.0000158