Sun tracker for solar panels (4 axis)
The Sun Tracker for Solar Panels (4-Axis) Working Model demonstrates advanced solar tracking technology, aligning panels with the sun across four axes for maximum energy efficiency. This innovative project is perfect for students exploring renewable energy and engineering concepts.
5 in stock
Refund
Unfortunately, once an order is placed, there is no refund available. However, we do offer exchanges for defective or damaged items.
Due to the nature of our products and the potential for misuse or mishandling, we do not offer refunds. We believe in customer satisfaction and strive to provide quality exchanges for any issues that may arise.
If you have received a defective or damaged item, please contact our customer service team and they will assist you with the exchange process. Please note that exchanges are subject to availability and product conditions.
We do not offer refunds for change of mind purchases, but we do offer exchanges for valid reasons such as defects or damages.
Delivery
My Science Kart delivers orders through a reliable and efficient shipping service to ensure your products arrive safely and on time.
Yes, you can easily track your order from My Science Kart by using the tracking number provided to you once your order has been shipped.
If you have any issues with your order from My Science Kart, please contact our customer service team who will be happy to assist you and resolve any problems.
Payment
You can pay for your purchases on My Science Kart using various payment methods such as credit/debit cards, net banking, UPI’s and mobile wallets.
Yes, we use industry-standard encryption technology to protect your payment information and ensure that it is secure.
If you have any payment-related queries or issues on My Science Kart, you can contact our customer support team through the website or email us at support@mysciencekart.com.
Sun tracker for solar panels (4 axis)
Description:
The Sun Tracker for Solar Panels (4-Axis) Working Model is an advanced project for students, demonstrating how solar panels can align with the sun’s position on four axes for maximum energy efficiency. By optimizing the orientation of solar panels throughout the day and across seasons, this model highlights innovative renewable energy solutions and practical engineering concepts.
Key Features:
- Demonstrates a 4-axis solar tracking system for superior energy optimization.
- Explains advanced solar technology principles and automation.
- Encourages hands-on learning in renewable energy and mechanical engineering.
Materials Needed:
- Foam Board or Sun Board: Base for the model.
- Solar Panel: Simulates energy collection.
- BO Motors: Provide movement along four axes (vertical, horizontal, tilt, and rotational).
- BO Wheels: Support smooth rotational movements.
- LDR (Light Dependent Resistor) Sensors: Detect the direction of sunlight.
- Motor Driver Module: Controls motor movements based on sensor input.
- Microcontroller (Arduino/Relay): Processes sensor signals to adjust the panel’s position.
- Battery and Clip (9V): Powers the system.
- Jumper Wires: Connect components to the circuit.
- PVC Pipes or Aluminum Rods: Provide structural support for the movable parts.
- LEDs: Indicate system status.
Working Principle:
- Sunlight Detection: LDR sensors detect the intensity of sunlight from different directions.
- Signal Processing: The microcontroller or motor driver processes the data from the sensors.
- Multi-Axis Movement: Motors adjust the solar panel along four axes—vertical, horizontal, tilt, and rotation—to align with the sun’s position.
- Energy Optimization: Continuous alignment ensures maximum solar energy absorption.
Applications:
- Demonstrates advanced solar tracking technology.
- Teaches concepts of automation, robotics, and renewable energy.
- Ideal for science fairs, engineering projects, and renewable energy education.
Conclusion:
The Sun Tracker for Solar Panels (4-Axis) Working Model is an innovative project that maximizes solar energy efficiency through advanced tracking mechanisms. This hands-on project inspires students to explore sustainable energy technologies and their practical applications.
Weight | 1.45 kg |
---|---|
Dimensions | 26 × 26 × 20 cm |
You must be logged in to post a review.
Q & A
Related Products
MAGNETIC FIELD DUE TO CIRCULAR COIL WORKING MODEL
- ✓ 100% Quality products
PARALLEL CONNECTION OF RESISTORS WORKING MODEL
- ✓ 100% Quality products
AC MOTOR WORKING MODEL
- ✓ 100% Quality products
TOTAL INTERNAL REFLECTION WORKING MODEL
- ✓ 100% Quality products
KIRCHHOFF'S LOOP LAW WORKING MODEL
- ✓ 100% Quality products
MAGNETIC FIELD DUE TO STRAIGHT WIRE CARRYING CURRENT WORKING MODEL
- ✓ 100% Quality products
REFLECTION OF LIGHT PLANE MIRRORS/LAWS OF REFLECTION WORKING MODEL
- ✓ 100% Quality products
LIGHT RAY TRAVELS FROM A DENSER MEDIUM TO RARER MEDIUM WORKING MODEL
- ✓ 100% Quality products
Product categories
- Circuits & Projects 130
- My Science Kart 562
- Raw Materials For Projects & Lab Equipments 329
- Science Exhibition 413
- Science Exhibition Projects & Working Models 240
- Biology Science Exhibition Projects & Working Models 30
- Chemistry Science Exhibition Projects & Working Models 12
- Mathematics Science Exhibition projects & Working Models 7
- Physics Science Exhibition Projects & Working Models 129
- Robotics Science Exhibition Projects & Working Models 10
- Social Science Exhibition Projects & Working Models 20
- Science Lab Equipments With Working Models 351
Cart
TRULY INDIAN EDUCATION BRAND
Over 10,000+ Happy Customers
My Science Kart
Address:- Ground floor, Lakshmi Nagar, D.No:- 40-1/1-5, PVP Mall Backside, Mogalrajapuram, Labbipet, Vijayawada, Andhra Pradesh 520010
7673977997, 0866-3543677
mysciencekart@gmail.com
Categories
MAP
© My Science Kart 2024, Designed & Developed By Synfocy Tech Solutions
Reviews
There are no reviews yet