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Modifed final
1. SHADAN WOMENS COLLEGE OF ENGG & TECHNOLOGY
TOPIC: FOOT STEP POWER GENERATION SYSTEM TO
RUN AC AND DC LOADS
BY
M.AYESHA MUBEEN
A.KIRANMAYI
A.SRILATHA
GUIDANCE BY: MISS SHEBA
2. ABSTRACT :
Man has needed and used energy at an increasing rate for his sustenance and well-being ever since he came
on the earth a few million years ago.
Due to this a lot of energy resources have been exhausted and wasted.
Proposal for the utilization of waste energy of foot power with human locomotion is very much relevant and
important for highly populated countries where the roads, railway stations, bus stands, temples, etc. are all over
crowded and millions of people move around the clock.
This whole human/ bio-energy being wasted if it can be made possible for utilization it will be great invention.
In this project we are generating electrical power as non-conventional method by simply walking or running on
the foot step.
Non-conventional energy system is very essential at this time to our nation.
The control mechanism carries the piezoelectric sensor, AC ripples neutralizer, unidirectional current controller
and 12v, 1.3amp lead acid dc rechargeable battery and an inverter is used to drive ac/dc loads.
3. INTRODUCTION:
AIM :
TO GENERATE POWER BY SIMPLY WALKING USING PIEZO ELECTRIC SENSOR
TECHNICAL SPECIFICATIONS:
Title of the project : Foot step power generation system to run AC and DC loads
Domain : Renewable Energy Management, Energy System
Power Supply : +5V, 500mA Regulated Power Supply and 12V lead acid Battery
Source : Piezoelectric transducers array
Inverter : 1
Applications : Metros, Rural Applications etc.,
4. EMBEDDED SYSTEM:
An embedded system can be defined as a control system or computer
system designed to perform a specific task.
The word embedded means it is built into the system. It is a permanent
part in a bigger system.
For example, a controller is embedded in an elevator and tells the motor
to move the elevator to different floors based on buttons that are pushed.
A decoder is embedded in a satellite television set-top box to read a
signal from the dish and send something that a TV understands.
Embedded systems are used everywhere in modern life and there are
many examples of their use.
5. APPLICATIONS:
Telecommunications systems : uses them for telephones, cell phone network, and wi-fi routers.
Consumer electronics : clock radios, MP3 players, mobile phones , video games, consoles digital
cameras DVD players, GPS receivers, home security systems, and printers.
Household appliances : microwave ovens, washing machines and dishwashers have embedded systems.
Transportation : uses embedded systems for everything from locomotives for trains, airplanes and
automobiles
Industry : uses electric motors with electronic motor controllers, card readers and CNC machines which
automatically make metal parts.
Medical devices : like defibrillators, automated blood pressure readers, and automated insulin pumps.
Military devices : like walkie-talkies, satellites and the guiding systems for missiles
6. INTRODUCTION:
Walking is the most common activity in day to day life. When a person walks, he loses energy to the road
surface in the form of impact, vibration, sound etc.
This energy can be tapped and converted in the usable form such as in electrical form.
In this project the main role is played by piezoelectric sensor. These sensors convert the mechanical energy into
electrical energy.
This energy is stored in rechargeable battery and this energy is used for operating A.C and D.C.
The control mechanism carries the piezoelectric sensor, A.C ripples neutralizer, unidirectional current controller
and 12V, 1.3Amp lead acid dc rechargeable battery and an inverter is used to drive AC/DC loads.
11. ---HISTORY---
The piezoelectric effect was discovered in 1880
by two French physicists, brothers Pierre and Paul-Jacques Curie.
They took the name from the Greek word piezein, which means "to press."
12. ---Arrangement---
o 16 piezo sensors are connected in 4 4 pattern.
o Arranged in parallel so that, if any sensor damaged
it will not effect the system.
o Each sensor is connected to zener diode.
13. ---BASIC PRINCIPLE---
Piezoelectricity….
Exactly
balanced.
Step
1 Exactly
cancel
out.
Step
2 If the
crystal is
squeezed,
forcing
the
charges
out of
balance.
Step
3
No longer
cancel one
another out and
net positive and
negative charges
appear on
opposite crystal
faces. By
squeezing the
crystal, can
produced a
voltage across
its opposite
faces—and
that's
piezoelectricity!
Step
4
14. AC Ripple Neutralizer-
---PRINCIPLE---
o In the case of D.C. the Capacitor charges fully to the Charging Voltage
and the Voltage across it will be equal to the Charging Voltage. The Voltage
across the capacitance does not change after full charging and remains equal
and opposite to the D.C. Voltage across it and hence no current can flow through it.
o In the case of A.C., after full charging the Voltage across
the capacitance decreases and reverses and so does
the A.C. current through the capacitor.
BLOCKS DC
ALLOWS AC
15. Unidirectional Current Controller-
A Diode is an electronic device that can allow the electric current to flow in one direction
only.
The diode performs the work of allowing the current to pass only in the forward direction
and not in the reverse.
16. Lead acid battery
The storage battery is such battery where electrical
energy can be stored as chemical energy.
And this chemical energy is then converted to
electrical energy as when required .
17. Working of lead acid battery
The conversion of electrical energy into chemical
energy is known as charging of battery.
conversion of chemical energy into electrical energy is
known as discharging of secondary battery.
Pb2 + 2H2 → Pb + 2H2O
18. Inverter
An inverter is an electrical device that converts D.C to A.C .
The converted AC can be used at any required voltage and
frequency with the use of transformers, switching, and control
circuits.
19. Working of inverter
The components required for working of
inverter are
1. MOSFET
2. Transformer
3. RLC circuit
20. Working principle
The basic working principle of our project is based on the piezoelectric sensor .
To implement this we adjust the wooden plates above and below the sensors and moveable
springs.
Non-conventional energy using foot step is converting mechanical energy into the electrical energy.
21. Working procedure
Foot step board it consist of a 16 piezo electric sensors which are connected in parallel.
When the pressure is applied on the sensors, the sensors will convert mechanical energy into
electrical energy.
This electrical energy will be storing in the 12v rechargeable battery.
DC voltage is converted to AC voltage by using an inverter
By using this AC voltage we can operate AC loads.
22. APPLICATIONS:
Foot step generated power can be used for agricultural, home applications, street lightning.
It is also used in universities .
In emergency power failure situations like hospitals.
23. ADVANTAGES:
Power generation is simply walking on the step.
Power also generated by running or exercising on the step.
No need fuel input.
This is a Non-conventional system.
Battery is used to store the generated power.
Reliable, Economical, Eco-Friendly.
Less consumption of Non- renewable energies.
Extremely wide dynamic range, almost free of noise
Compact yet highly sensitive
Self generating – no external power required
24. CONCLUSION
The project “FOOT STEP POWER GENERATION TO RUN A.C. AND D.C.
LOADS” is successfully tested and implemented which is the best economical,
affordable energy solution to common people. This can be used for many
applications in rural areas where power availability is less or totally absence. As
India is a developing country where energy management is a big challenge for
huge population. By using this project we can drive both AC as well as D.C loads
according to the force we applied on the piezoelectric sensor.