1. Seminar on :
“Solar Operated wheel chair
for
handicap or disable person”
Presented by : Guided
by:
[1]Mayur mendhe Prof.V.V.
Sable
[2]Suraj nindekar
[3]Shubham jiwtode
[4]Avinash thool
2. Introduction
Aim
Objective of System
Current System
Problem Definition
Proposed System
Mechanism / Diagram
Statistical Analysis
Advantages
Conclusion
Bibliography
Contains
3. IntroductionIntroduction
In this project solar panel generates electricity.
Disable or Handicap person can able to use this system
anywhere on their workplace.
this project can be useful for old persons and physically
weak persons also person who injured from accident.
The present world the medical field is very much focuses
about to care the patients, and the patient/ handicapped one
are like to leave individually without the help of any others
so, this proposed product will be very effective for the
them.
4. AimAim
Redesigning the existing system.
To generate the energy from existing system and utilised
variously mainly when the power cuts.
5. Objective of SystemObjective of System
Analysis of present system.
To develop a vehicle that use renewable energy,
environmentally friendly and cheap.
To develop an electrical tricycle that can charge the
battery when it is not in used.
To develop low speed, but for a longer distance.
6. Current systemCurrent system
In the current system, there is only use of lift is to lift
from down to up and vise versa. These mechanical motion
is unutilized.
The current system does not have any mechanism to
utilized the power generated by the lift motion.
8. Problem DefinitionProblem Definition
In the present system there is not any arrangement to
utilized the mechanical energy for power generation.
The energy produced in existing process is not define.
9. Proposed SystemProposed System
The invention and the preferred modes of use will best be
understood by reference to the following detailed
description of an illustrative embodiment. A control block
diagram of a self generating elevator emergency power
source for an elevator system using a reciprocating and an
electrical generator. A control block diagram of self
generating elevator emergency power source for an elevator
system using a reciprocating and an elevator motor in
generator mode.
11. StatisticalStatistical AnalysisAnalysis
Energy = Total work of lift system + Total standby losses
Total work of the lift system = ∑ (no. of trips by lift *
distance travelled per by lift)
Total work of the lift system=a * Σ (distance travelled per
trip per lift)
Total work of the lift system= a * Lift Floors
Total standby losses = b * NLA
Annual Lift Energy (kWh) = 528 * Lift Floors + 5.47 *
occupied NLA (m²)
12. AdvantagesAdvantages
Generate the power from lift and use these for various
things (i.e fan, lights) in no cost.
When the power cuts the energy saves in the battery will
utilized.
The assembly is very easy and cheaper in rate so power
generation rate is low.
Maintenance cost of the project is also low.
13. ConclusionConclusion
Various modifications of the disclosed embodiments as well
as alternative embodiments of the invention will become
apparent to persons skilled in the art upon reference to the
description of the invention. It is therefore contemplated that
the appended claims will cover any such modifications or
embodiments that fall within the true scope of the invention.
14. BibliographyBibliography
[1 ] Thanit Punprayoong and Boonyong Plangklang, energy
saving elevators by in Building a case study: RMUTT,
Conference on Energy Network of Thailand 8. 2-4 May 2555,
Maha Sarakham : 4, 2555.
[2] H. Inaba, S.T. Nara, H. Takahashi$M. Nakazato, High
speed elevators controlled by current source inverter system
with sinusoidal input and output.
[3]http://www.danahermotion.com/education_training/motor/
four-quadrant operation (August, 2012).
[4] Rajamangala of Physics, Department of Physics Faculty
of Science Rajamangala, University of Technology
Thanyaburi.
15. [5] Pirote Brikapkul., The design of the feedback controller in
integral self-adjusting for permanent magnet synchronous motors,
Master degree thesis, Electrical Engineering, KMUTNB Thailand,
2546.
[6] Ashok B. Kulkarni, Hien Hguyen and E.W. Gaudet “A
Comparative Evaluation of line Regenerative and Non-
Regenerative Vector Controlled Drives for AC Gearless
Elevator”,IEEE 1431-1437 .
[7] Masaki Nomura, Hiroyu Ikejima, Shigetaka Morita and Eiki
Watanabe, Regenerative Power Control For VVVF Motor Drive
(Critical Braking Method Applied To The Elevator), IEEE 97-105 .
[8] EMPIRICAL PREDICTION OF OFFICE BUILDING LIFT
ENERGY CONSUMPTION by Dr Paul Bannister, Chris
Bloomfield, and Haibo Chen Exergy Australia Pty Ltd, Canberra,
Australia.