DIY :👣 Foot Step Power Generation using Piezo Electric Modules | Best Science Project
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- Опубликовано: 10 фев 2025
- #renewableenergy #project #freeenergy #diy
Award Winning idea | Science Project | Engineering project
🚶🏽♂️DIY :👣 Foot Step Power generation using Piezo Electric Modules | Best Science Project | Award Winning project idea
Hybrid energy generation using piezo and solar panel
Footstep Power Generation, Piezoelectric Power Generation,
Footstep Energy Harvesting, Piezoelectric Modules Energy Harvesting,
Renewable Energy from Footsteps, Arduino Piezoelectric Energy Project,
Footstep Pressure to Electricity, Energy Harvesting from Footsteps,
#engineeringproject #capstone Project #major Project
for EEE ECE Mechanical Science Exhibition project
To Buy/ Make this project with training
contact us:
👨🏼🏭𝗩𝗶𝗽𝗶𝗻 𝗞𝘂𝗺𝗮𝗿 𝗦𝗵𝗮𝗿𝗺𝗮
Ph.D., M.Tech, B.Tech in ECE
🎓Lecturer 🚀#Researcher #Drone #Robotics
Whatsapp : wa.me/91981032...
xilirprojects.com
1. Synopsis/ Documents
2. Block diagram and circuit diagram with explanation.
3. Bill of material.
4. Components Specification list
5. Working principle of the project.
6. Datasheet of all components.
7. Program/code of Arduino with training.
8. Complete Working principle description.
9. Complete interfacing description.
10. you can get the project by courier.
11. viva preparation
ask us if other things needed.
Footstep Power Generation Using Piezoelectric Modules
**Description**
Footstep power generation using piezoelectric modules is an innovative energy harvesting system that converts mechanical pressure from footsteps into electrical energy. This system is particularly useful in high-traffic areas like train stations, shopping malls, and sidewalks, where the movement of people can be harnessed to generate renewable energy.
Key Components:
Piezoelectric Modules: These are the core components that generate electricity when mechanical stress is applied.
Arduino Board (Optional): For monitoring and controlling the system.
Rectifier Circuit: Converts the AC output from piezoelectric modules into DC.
Capacitors/Battery: Stores the generated electrical energy.
Voltage Regulator: Ensures a stable output voltage.
Display Module (Optional): To show the amount of energy generated.
**Working Principle**
Pressure Application:
When a person steps on the piezoelectric modules embedded in the floor, the mechanical pressure is converted into an electrical charge.
Energy Conversion:
The AC voltage generated by the piezoelectric modules is converted to DC using a rectifier circuit.
Energy Storage:
The DC output is then stored in a capacitor or battery, which can be used to power small devices or fed into a larger energy storage system.
Energy Utilization:
The stored energy can be used for various applications such as powering LEDs, charging batteries, or even contributing to the grid.
***Advantages***
Renewable Energy Source: Utilizes human movement, a renewable and inexhaustible resource.
Scalability: The system can be scaled up by increasing the number of piezoelectric modules.
Low Maintenance: Minimal moving parts reduce the need for frequent maintenance.
Environmental Impact: Reduces reliance on fossil fuels and contributes to reducing carbon emissions.
** Challenges**
Energy Output: The amount of energy generated by a single footstep is relatively small, requiring efficient energy management and storage solutions.
Cost: The initial cost of piezoelectric materials and installation can be high.
Durability: Ensuring the durability of piezoelectric modules under continuous foot traffic.
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