NAAC-Accredited 'A++' - Grade 2(f) & 12(B) status (UGC) |ISO
9001:2015 Certified | FIST Funded (DST) SIRO(DSIR)
Completed Projects :
Modeling, Simulation of Control Actuation System for Armament Research Development Establishment (ARDE) DRDO, Pune
Student Entrepreneurship
Student projects under SONAPEDAC R&D Centre
S.No | Title of the project | Student Members |
---|---|---|
1 | Vehicle Weight Monitoring System with near field communication | Harikrishnan.G, Jenicks Raja. R, Kiran Kumar. S, Kishore Kumar. P |
2 | Solar powered submersible motor for standalone application in rural areas | L .Chandani Chanu, R Priyanka, K prtiyadharshini, K.Shabaina Fathima |
3 | Reduction of Global Warming potential by implementing hybrid renewable energy sources for energy production using hydrogen fuel cell | G Heerakumari, S Harshitha, SS Hariharan, N Gokulan |
4 | Wireless control of electric appliance using Ardunio | N Kiran, V Manikandan, K P Praveen, S Ragu |
5 | Autonomous Robotic Manipulation | Ananthraj S, M Ambalavanan, Ifran Khan, S Deeepika |
6 | Solar powered PC based control of Defense system | G Prakash, R Ragu, S Sadhana, G Saraswathy |
Design and Implementation of Five-Wheeled Chair to Climb Over a Step for Effective Mobility among Disabled
Design and implementation of bidirectional dc-dc converters for efficient energy storage system from wind energy and grid sources
Covid-19 Project in EEE & SONA-PEDAC
Ongoing Projects :
An Integrated system for Harnessing Maximum Sustainable Energy Sources for a Domestic Load
Renewable energy sources have become a popular alternative electrical energy source where power generation in conventional ways is not practical. In the last few years the photovoltaic and wind power generation have been increased significantly. In this study, we proposed a hybrid energy system which combines both solar panel and wind turbine generator as an alternative for conventional source of electrical energy. A simple control technique which is also cost effective has been proposed to track the operating point at which maximum power can be coerced from the PV system and wind turbine generator system under continuously changing environmental conditions. The entire hybrid system is described given along with comprehensive simulation results that discover the feasibility of the system. A software simulation model is developed in MATLAB/SIMULINK. To verify hardware a bidirectional converter, a single stage inverter with grid synchronizing panel is proposed to deliver continuous and reliable power supply to grid user.