Projects
Hydroelectric Power Plant
The Hydroelectric Power Plant project focuses on harnessing the potential energy of stored water and converting it into electrical energy using a turbine-generator system. This model demonstrates the working principle of hydroelectricity, emphasizing renewable energy generation, environmental benefits, and the efficiency of water as a sustainable energy resource. The setup includes a miniature dam, penstock, turbine, and generator to simulate the entire power generation process.
In this project, I was responsible for designing and fabricating the turbine setup, ensuring smooth water flow and optimal rotation for maximum power output. I also assisted in calculating the theoretical and practical efficiency of the system, comparing results, and suggesting improvements for energy conversion. This hands-on work helped me strengthen my understanding of fluid mechanics, energy systems, and sustainable power technologies.
Coal Mine Safety Monitoring System
The Coal Mine Safety Monitoring System project is designed to enhance the safety of workers in underground mines by continuously monitoring critical environmental conditions such as methane gas levels, temperature, and humidity. The system uses sensors connected to a microcontroller to collect real-time data and trigger alerts when unsafe conditions are detected. This early warning system helps prevent accidents and ensures timely action in hazardous situations.
In this project, I contributed by designing the circuit layout and assembling the hardware components, including gas and temperature sensors. I also worked on preparing the project documentation and creating a user manual for system operation and troubleshooting. This experience improved my skills in electronic hardware setup, technical writing, and understanding safety-focused engineering applications.
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E-waste Treatment and Metal Recovery using Electrolysis
The E-waste Treatment and Metal Recovery using Electrolysis project aims to reduce the environmental impact of electronic waste by recovering valuable metals like copper and gold through an electrochemical process. The method involves dismantling electronic components, extracting metals into a solution using chemical processes, and then using electrolysis to recover pure metal deposits in a sustainable and efficient manner.
In this project, I was responsible for the safe handling and dismantling of e-waste materials, as well as separating metal-containing components from circuit boards. I also contributed to the design of the experimental setup, including the placement of electrodes and power supply arrangement for effective electrolysis. This role helped me gain practical knowledge of material recovery, waste management, and lab safety practices.
