International Journal of Engineering and Techniques - Volume 8 Issue 5, September 2022 ISSN: 2395-1303 Page 51 http://www.ijetjournal.org Abstract: Wind turbines are the most widely used machines and are now being used across the globe for power generation. The emerging trends and the availability of intelligent technologies help us to satisfy the needs of the emerging world. World needs a constant renewable power supply to meet their energy demands. The model proposes an efficient real- time monitoring the fluctuations in the voltage, R. P. M and current and automate the process to cut the power supply according to the need. The system is accurate and provide the real time data. There are many systems that can detect different parameters in different procedures. Index Terms—- Arduino, Power Generation, RPM, Vertical Axis Wind Turbine. Design and Build Control Panel for Vertical Axis Wind Turbine Rotating at 700 RPM Prof. Sharda. P. Tondare 1 , Prof. Anuradha. S. Nigade 2 , Prof. Sonali. K. Pawar 3 , Prof. Aparna. S. Patil 4 , Sanidhya Singh 5 , Jyot Prakash Shukla 6 , Kunal Tyagi 7 1(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) 2(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) 3(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) 4(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) 5(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) 6(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) 7(Electronics and communication engineering, Bharati Vidyapeeth (Deemed to be university) College of Engineering, Pune) I. INTRODUCTION With populations increasing exponentially and our natural resources being strained by increases in demand, it is more important than ever to invest in renewable energy. Our consumption of fossil fuels as energy has been traced to be a leading cause in environmental issues. The by-product of fossil fuel consumption is carbon dioxide, which has been named to be a primary constituent leading to Global Warming. The amount of carbon dioxide that someone or something produces is known as its “carbon footprint.” The media has been focusing on this issue and many green movements have started to try and reduce our “carbon footprint.” (Green Student U, 2008) There are only a few types of energy that do not produce carbon dioxide. These are nuclear power and renewable energy sources such as wind, solar and hydro power. Renewable energy sources are the cleanest from of these sources, because there is no waste formed as by- products of these sources. Nuclear energy produces nuclear waste which could take up to but not limited to 100 years until it can be disposed of properly. Wind turbines have been used throughout the world to generate electricity from offshore wind farms to residential smaller scale wind turbines. (California Energy Commission, 2012). There are two main types of wind turbines. The two general categories for wind turbines include vertical axis or horizontal axis wind turbines. The turbines are classified upon how the shaft of the generator is mounted. The horizontal axis wind turbine HAWT was invented before the vertical axis wind turbine (VAWT), which led to its popularity and wide use. This project is an extension of previous work at WPI in MQP projects that focused upon VAWTs. The research in this project was intended to improve VAWT efficiency and maximize the energy generation from the wind’s available power. This was done by considering alternate turbine designs adding a shroud around the wind turbine. The project researched blade designs that performed the best with a 90° enclosure. The enclosure is a shroud that surrounds the turbine and allows wind to enter the area at a 90° angle. The enclosure was expected to increase the turbine’s revolutions as compared to a turbine without an enclosure. The project also entailed research into reducing the amount of vibration experienced by a roof caused by wind turbines. This was approached by variations of vibration dampening systems on the roof mounting system. RESEARCH ARTICLE OPEN ACCESS