Final Year Electrical Engineering Project Ideas for College Students

Table of Contents

Electrical Engineering Project Ideas

EEE refers to electrical and electronics engineering. Presently, there is a lot of interest on the part of most students to join the EEE branch and complete their projects in III and IV years. Quite a few students try out innovative projects that work in real time. For this very purpose, we have listed some of the best EEE projects from different categories such as electrical, robotics, embedded, GSM, RFID, RF, etc. These project ideas work as a means of helping electrical engineering students attain their B. Tech degree successfully. We present this post of some tasking Final Year EEE Projects ideas since the demand for this kind of post has been rampant on the internet. Thus, here we have included various projects under different categories, such as embedded, electrical, robotics, communication, solar, sensor, etc. I hope these eee projects would be most helpful for many engineering students in their final year for successfully pursuing their B-Tech.

IoT based Irrigation System

This project designs an irrigation system based on IoT. Nowadays, IoT is a very famous technology since it is going to change all electronic devices in the near future. This electrical project mainly is intended to monitor soil moisture content so that a water pump can be controlled. The water pump will be turned OFF when moisture content crosses a given threshold voltage.

Similarly, the pump will be turned ON when the moisture content in the soil is below a threshold value. Thus, the moisture level update shall be sent via e-mail to the user since the device used in this project, like Arduino, is pre-programmed. You can read more about it at this link IoT & Arduino based Irrigation System. You probably know that in like manner if soil moisture content will be below a threshold value then pump shall turn ON. Again this means the moisture level update will be disseminated to the user via email since the device that is being used in this project, such as Arduino, is pre-programmed. Read this link IoT & Arduino based Irrigation System to know much more.

IoT based Monitoring System for Weather

This is one of the applications of the IoT and developing EEE projects around such technology will be amazing and very helpful to offer students a deeper understanding. The design concept of this proposed system is a weather monitoring system. DHT sensor, WiFi module, and Arduino Uno have been used in the project. By virtue of this project, it will be possible to sense the humidity/temperature prevailing in the weather as well as send an immediate message to an operator situated in remote areas.

Smart Transportation Systems using IoT

The smart transportation project proposes IoT and Wireless Sensor Networks for use. It addresses paid parking meters, roadways, and sensing of parking areas. All this can be integrated into the network for the facilitation of finding or searching for available parking spots for vehicles and ticketing. Now, traffic monitoring has been integrated.

Power System Based Projects for EEE

Power systems in electrical engineering refer to all operations related to the generation, transmission, and distribution of electrical power, power consumption, and so on. This link provides a brief account of project ideas based on the power system as well as power electronics.

Water Heating System using Solar & PIC Microcontroller

The proposed system is utilized to employ the exploitation of solar energy. A PIC microcontroller-enabled system is employed for heating water using solar energy.

Nano Solar Cell-based Cost & Design Analysis

The study herein illustrates that the design of a PV system wants the intervention of nanotechnology because generating electricity from light is very uneconomical. Therefore, the project provides for the cost analysis of a PV system with a helping hand from nanotechnology.

Home Automation System Using Arduino

With the aid of the Arduino-based home automation system, everything concerning the heating, ventilation and air conditioning, and lighting appliances will be controlled. The proposed system makes use of an Arduino board with a Bluetooth module attached to it for the purpose of remote control of home appliances. A GUI application is used at the transmitter end for sending ON/OFF commands to the receiver where the loads are connected. The controlling of loads occurs when the Arduino board receives commands via TRAIC in combination with isolator arrangements from the cell phone of the user.

Our list of final year projects for EEE include the following.

 

1. Single-Phase Transformer Used for the Minimization of Leakage Current in the Grid Connected Systems

2.   DYNAMIC WIRELESS CHARGING FOR ELECTRIC VEHICLES

3.   A Novel Quadruple Boost Inverter With New Optimized Fuzzy-Based Switching Scheme

4.  Grid Resilience Enhancement and Stability Improvement of an Autonomous DC Microgrid Using a Super capacitor-Based Energy Storage System

5.  Protection and Power Smoothing of a DFIG DC Microgrid Hybrid Power System With SMES Based Unified Power Quality Conditioner

 

The electrical projects for engineering students have been highlighted above. We assume that you are already feeling somewhat enlightened with respect to these project ideas. Further, do not hesitate to leave any inquiries going through this article, or any mini-projects regarding E.E.E., in the comment box below. So, tell us, why do we prefer AC systems over DC systems? We hope that the above final-year EEE project ideas will be of more assistance to you in selecting a better project in engineering.

 

Conclusion

EEE (Electrical and Electronics Engineering) is gaining interest among students, with many pursuing real-time projects to achieve their B.Tech degree. This post presents a list of Final Year EEE Project Ideas, covering various categories such as electrical, robotics, embedded, GSM, RFID, RF, and more. These projects aim to help students achieve their B.Tech degree successfully.

One project is an IoT-based irrigation system, designed to monitor soil moisture content and control a water pump. Another project uses an IoT-based weather monitoring system, using a DHT sensor, WiFi module, and Arduino Uno to sense weather conditions and send messages to remote operators. Another project is a smart transportation system using IoT and Wireless Sensor Networks to address parking meters, roadways, and parking area sensing. Power system-based projects focus on the generation, transmission, and distribution of electrical power. A water heating system using solar energy is also proposed. Lastly, a Nano Solar Cell-based cost and design analysis is presented, highlighting the importance of cost and design in the design of a PV system.

Final year projects