Air Pollution Control Project/Inspire Award Winning Project/Electrical Project For Final Year/Diploma Engeering Project For Students
Objective: To mitigate air pollution by capturing vehicle emissions and converting them into usable ink.
Technology Used: Carbon filters integrated into vehicles to capture emitted smoke particles.
Conversion Process: Smoke particles trapped by filters are processed to extract carbon-based materials suitable for ink production.
Original price was: ₹4,999.00.₹3,750.00Current price is: ₹3,750.00.
In the relentless battle against pollution, innovative solutions are indispensable. Imagine a world where every vehicle that traverses our roads not only serves its transportation purpose but also becomes a contributor to environmental sustainability. Introducing our revolutionary project: a pollution mitigation system ingeniously integrated into the very infrastructure of our roads.
In this visionary endeavor, we have conceptualized and implemented a groundbreaking solution to address the rampant issue of vehicular pollution. Our project ingeniously harnesses the emissions expelled by vehicles on roads and transforms them into a resource for positive environmental impact.
At the heart of our innovation lies the Smoke Absorber, strategically positioned along the thoroughfare. Equipped with state-of-the-art IR Sensor modules, this absorber springs into action upon detecting the approach of any vehicle. Triggered by the IR Sensor’s signal, the relay mechanism activates, powering the absorber’s motors to commence its pivotal task.
As vehicles traverse the road, their emissions are swiftly captured and drawn into the Smoke Absorber’s chamber. Here, the pollutants are contained and channeled towards a secondary absorber unit, which directs them through a series of carbon filters. These filters, meticulously designed and implemented, efficiently trap the harmful pollutants while allowing clean air to pass through.
Notably, our pollution mitigation system operates with optimal efficiency and minimal energy consumption. By employing intelligent sensor technology, it remains dormant until a vehicle’s presence activates it, ensuring that energy resources are utilized sparingly and effectively.
The captured pollutants, now securely confined within the carbon filters, undergo a transformative process. Through innovative techniques, these pollutants are converted into a valuable resource: ink. This ink, derived from the very emissions that once polluted our atmosphere, symbolizes our project’s commitment to sustainability and resourcefulness.
Furthermore, our project exemplifies a symbiotic relationship between transportation infrastructure and environmental preservation. By seamlessly integrating pollution mitigation mechanisms into the fabric of our roads, we pave the way for a cleaner, healthier future.
Join us as we embark on this journey towards a greener tomorrow, where every mile traveled contributes not only to progress but also to the restoration of our planet’s precious ecological balance. Together, let us redefine the notion of vehicular impact and pave the way for a sustainable future.
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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
Welcome to our Smart Inverter Project tutorial! In this video, we’ll show you how to build a DIY inverter that provides an automatic power backup solution for your home. If you’re looking for a continuous power supply during outages, this inverter with battery storage will keep your lights on even when the main power goes out.
This project involves creating a smart inverter circuit that can seamlessly switch from AC power to a 12V DC battery when the electricity supply is interrupted. Not only does it ensure uninterrupted power to your 230V AC appliances, but it also recharges the battery when the main power is available.
In this detailed how-to guide, we cover everything from the basic components needed to the step-by-step assembly and testing of the inverter. Plus, we’ll discuss how this inverter system can be adapted for use in transmission lines, ensuring a reliable power supply to cities from substations, even if the main transmission line fails temporarily.
What You’ll Learn in This Video:
Inverter Basics: Understand how an inverter works and the role of battery storage in providing continuous power.
Step-by-Step Construction: Follow our easy instructions to build your own inverter circuit with a 12V DC battery backup.
Automatic Switching: Learn how the inverter automatically switches to battery power during outages and back to AC power when available.
Practical Applications: Discover how this smart inverter system can be used in transmission lines to maintain city power supply during disruptions.
IR Sensor: The IR sensor is used to detect the presence of a vehicle. When a vehicle enters the range of the sensor, it detects its presence. Relay Module: The relay module is used to control the system. Once the IR sensor detects a vehicle, it sends a signal to the relay module, which in turn activates the LED bulb and alarm. LED Bulb: The LED bulb is used to indicate the presence of a vehicle coming from the opposite side. When a vehicle is detected by the IR sensor, the LED bulb on the other side turns on, alerting drivers. Alarm: The alarm sounds to provide a warning of the vehicle’s approach, ensuring further attention and safety. Wiring and Connections:
Working Principle: When a vehicle enters the range of the IR sensor, the sensor detects its presence. The IR sensor sends a signal to the relay module. The relay module then activates the LED bulb and alarm on the opposite side. The alarm and LED bulb warn the drivers that a vehicle is approaching.
Objectives: Enhance road safety by alerting drivers about vehicles approaching from the opposite side. Prevent traffic accidents, especially in areas with limited visibility. Create a simple and cost-effective vehicle detection system for traffic monitoring.
Expected Outcomes: Early warning system for approaching vehicles, giving drivers more time to react. Improved awareness and timely responses from drivers to avoid accidents. Efficient use of sensors and alarms to ensure smooth traffic flow and safety.
Applications: Safety alert system on narrow roads or blind spots. Traffic control at signal points or crossing areas. Monitoring vehicles in industrial areas or warehouses where safety is critical.
Future Improvements: Use of advanced sensors (e.g., ultrasonic) for better accuracy. Integration with traffic signal systems for automated control. Solar-powered systems for cost-effective outdoor applications.
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.
In this project kit box we will give you all components and parts , Extra decoration materials , How to make full step by step video and 3D circuit diagram , Reading pages , Synopsis file , Online training access There will be more wires around the field wall , The direction from which the animals are entering the fields, then on coming in touch with the wire which is around, the alarm will start sounding from the same direction, so that the animal will feel that someone is coming and he will run away due to which the farmer is not in the fields. There will be safety and there will be no harm to the farms and animals. So If farmer go to out side of field then his crop save by animal Best Part Of This Project , It’s System Making Cost Very Low Any Farmer Can buy or Make Himself And Use In Field .
This DIY project features a wearable watch with an RC transmitter that sends emergency signals to the nearest police car, triggering an alarm and red light for immediate response. Perfect for school projects, engineering experiments, DIY enthusiasts, and Inspire Awards. Watch now to see how this low-cost, localized system ensures quick action in emergencies and enhances women’s safety.
How It Works: Laser Beam Setup: A laser torch emits a beam that travels across the area by reflecting off three strategically placed mirrors (glasses). This configuration creates a continuous laser barrier around the perimeter of a model house or any area you wish to secure.
LDR Detection: The laser beam ultimately hits an LDR module, which is sensitive to light. As long as the laser beam is unbroken and falls on the LDR, the system remains in a passive state, with no alarm triggered.
Relay and Buzzer Activation: The LDR is connected to a single-channel relay module that controls a 9V buzzer. If the laser beam is interrupted, the LDR detects a change in light intensity, signaling the relay to activate the buzzer. This results in an audible alarm that warns you of the potential intrusion.
Unauthorized Entry Alert: The alarm is designed to activate whenever there is an obstruction in the laser path, such as someone entering the secured area without permission. This feature provides a simple yet effective means of safeguarding your space.
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.
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.
“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.
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