Solar Wireless Electric vehical/Inspire Award Project/Solar car/science project kit/Diy Project/Final year electrical project
1. Introduction: In today’s world, the growing concern for environmental sustainability has led to the development of renewable energy solutions. Electric vehicles (EVs) have gained popularity as an eco-friendly alternative to traditional gasoline-powered cars. However, one of the challenges faced by EV owners is the limited range due to battery constraints. To address this issue, we have developed a groundbreaking project – a solar-powered wireless charging system that can provide emergency charging to electric vehicles using a remote-controlled (RC) robotic car.
Original price was: ₹3,999.00.₹3,300.00Current price is: ₹3,300.00.
In a world ever more conscious of environmental sustainability and energy-efficient transportation, the Solar-Powered Wireless Charging System for Electric Vehicles emerges as a pioneering project. This innovation combines cutting-edge technology, harnessing 6V solar power, to charge a 4.5V battery in a specially designed solar car. Equipped with four 4V motors for forward and reverse movement, this vehicle is controlled by a standard RC transmitter and receiver. A standout feature is the integration of a wireless charging system at the rear, enabling this solar car to provide wirelessly charged energy to other electric vehicles in need, revolutionizing how we envision eco-friendly transportation.
In this project report, we delve into the intricacies of our Solar-Powered Wireless Charging System, exploring each component’s functionality and synergy. We will discuss solar power generation, battery management, electric propulsion, remote control technology, wireless charging principles, system integration, testing, and real-world applications. The project’s ultimate goal is to not only showcase a sustainable mode of transportation but to pave the way for a future where electric vehicles can support each other in times of need.
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The Cow Drone Safety system is a cutting-edge technology designed to improve the safety and well-being of cattle on farms. By utilizing drones equipped with advanced sensors and monitoring capabilities, this system aims to revolutionize the way farmers manage their livestock. In this project, we will explore the design, functionality, and potential benefits of the Cow Drone Safety system.
How It Works: Traffic Light Sequence: Our setup uses BC547 transistors to control the traditional red, yellow, and green traffic lights, allowing them to operate in a seamless sequence.
Blue LED Congestion Indicator: The key feature of our system is the blue LED, which lights up to indicate traffic congestion.
IR Sensor Modules: We have installed three IR sensor modules along the road. These sensors detect the presence of vehicles.
Relay Modules: Each IR sensor is connected to a relay module. When all three sensors detect vehicles simultaneously, they activate their respective relays.
Congestion Detection: Once all the relay modules are active, the blue LED lights up, indicating that the road is congested. If any one of the relay modules is inactive, it means there is space on the road, and the blue LED remains off, indicating that traffic is flowing smoothly.
Benefits: This project provides real-time traffic updates, helping drivers make informed decisions and allowing authorities to manage traffic more efficiently.
“In this video, we introduce a revolutionary concept: the Life-Saving Stick for Farmers. Designed to ensure the safety of farmers working in fields, this stick incorporates a vibration motor and a micro pressure switch. When farmers traverse through their fields, the stick, upon touching the ground, activates the vibration motor through the pressure switch. This vibration, transmitted through the ground, serves as a deterrent for nearby snakes, effectively reducing the risk of snake encounters and ensuring the safety of our farmers.
In this step-by-step DIY guide, we demonstrate how to construct this innovative device, providing detailed instructions and tips for assembly. Join us in empowering farmers with this life-saving technology, enhancing their safety and peace of mind while they work tirelessly to feed our communities.
Footstep Power Generate Mechanical Project
Generate Electricity From Mechanical Energy
Generate Electricity By Pressure
Generate Electricity By Walking
Footstep Power Generate Project
Smart Street Light project
Automatic Street Light project kit Box
IR Sensor Street Light Project Kit Box
Inspire Award Project Kit Box
Street Light Project
Health + Electricity Generation – Combines fitness with energy savings.
Made from Cardboard – Low-cost and eco-friendly DIY model.
Uses a Dynamo Motor – Pedaling turns mechanical energy into electricity.
Inverter Battery Charging – Just 15 minutes of cycling daily can charge your home inverter up to 40–50%.
Reduces Electricity Bill – Can help cut down your power costs by up to 50%
Perfect for Home Use – Easy to set up and use regularly.
Eco-Friendly Solution – Promotes green energy and reduces carbon footprint.
Great for Science Fairs & School Projects – A unique mix of innovation and education.
Boosts Motivation – Provides instant results to keep users motivated to cycle daily.
Step Toward Renewable Energy – Inspires sustainable living and self-reliance.
Project Key Features: Waste Plastic Bag Collection: Plastic bags, which are typically waste material, are collected to prevent them from polluting the environment.
Electricity Generation: The plastic bags are burned to generate electricity. This process contributes to renewable energy production.
Pollution Control and Ink Production: The emissions released during the burning process are filtered and treated to create high-quality ink in an eco-friendly manner.
Road Construction Using Waste Materials: Recycled plastic bags and other waste materials are used to build sustainable roads. These roads are more durable and require less maintenance than traditional roads.
Environmental Benefits: The project helps reduce environmental pollution by efficiently managing waste and generating clean energy.
Economic Value: The recycling of plastic adds economic value, benefiting local economies and creating new jobs.
Sustainable Future: The project aims to create a more sustainable and eco-friendly future, where waste is properly utilized and environmental harm is minimized.
Project Benefits: Waste Management: Efficient disposal and utilization of waste plastic bags. Energy Generation: Clean, renewable energy production. Pollution Reduction: Emissions are controlled, and ink is produced in a safer, environmentally friendly way. Cost-Effective Infrastructure: Roads built from recycled materials are cost-effective and long-lasting. Environmental Impact: Reduces carbon footprint by providing eco-friendly solutions. This project offers a new perspective on waste management and sustainability, providing positive environmental impacts while supporting economic growth.
In this video, I demonstrate how to create a floating house using ACC blocks (Autoclaved Aerated Concrete blocks) and a cardboard house. I built the base of the house with ACC blocks, which are lightweight and float on water. When placed in a water tank, the house’s height automatically rises with the water level, preventing it from sinking. This project shows how real-life houses can be designed to stay afloat during heavy rainfall or floods, offering a solution for disaster management in flood-prone areas. The idea behind this floating house concept is to build homes that automatically adjust their height based on the rising water levels, ensuring that they do not get submerged during extreme weather conditions.
This floating house project is a great idea for those interested in science experiments, civil engineering projects, or innovative disaster management solutions. Whether you’re a student, a science enthusiast, or someone looking for unique school projects, this video will help you understand the concept of a floating house and its potential use in real life. Watch the full video to see how you can make this project at home and learn about flood-resistant house designs.
The Problem: Electrical poles, being integral components of power distribution networks, are susceptible to various faults, including short circuits. These faults pose significant dangers to both nearby individuals and the infrastructure itself. However, identifying when a pole is experiencing a fault, especially during adverse weather conditions like rain, can be challenging.
The Solution: Our project introduces a visual indicator system designed to promptly notify observers when a fault occurs in an electrical pole. This system consists of a small strip affixed to the pole, divided into two distinct colors: green and red. During normal operating conditions, when no fault is present, the strip remains green, indicating that the pole is functioning safely. However, when a fault such as a short circuit occurs, the strip promptly changes its color from green to red, si
How it Works: The indicator strip is equipped with sensors capable of detecting abnormal electrical activity, such as an increase in current flow due to a short circuit. Upon detecting such an anomaly, the sensor triggers the color change mechanism, causing the strip to transition from green to red. This visual change serves as an immediate warning sign to anyone in the vicinity that the pole is experiencing a fault and should be avoided.
Benefits: Enhanced Safety: By providing a clear visual indication of faults, the system helps prevent accidents and injuries caused by inadvertent contact with electrified poles. Timely Response: Prompt identification of faults enables swift corrective action, minimizing downtime and potential damage to the electrical infrastructure. User-Friendly: The simplicity of the color-changing indicator strip ensures that it is easily understandable by individuals of all backgrounds and levels of expert
Introduction: We have developed this project based on India’s Chandrayaan mission. This project is a part of a professional and technical campaign showcasing India’s presence in international space exploration. In this project, we have created a model based on the fundamental concepts of the Chandrayaan mission.
The name of this project is safety helmet. Mainly work of this project is safety of a rider. We make a connection between bike and helmet by using the sensors. When rider will wear the helmet then our bike start. If the rider will not wear the helmet then bike will not start. We use the indication system in the helmet also. Indication system will show you wear the helmet properly or not. So it’s good for safety purpose and we safe it from thief also. Because without helmet bike will not start.
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