ADVANCED DESIGN AND IMPLEMENTATION OF HYBRID POWER PLANT FOR RURAL ELE

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NAME OF INNOVATION: ADVANCED DESIGN AND IMPLEMENTATION OF HYBRID POWER PLANT FOR RURAL ELECTRIFICATION:

NAME OF INNOVATION: ADVANCED DESIGN AND IMPLEMENTATION OF HYBRID POWER PLANT FOR RURAL ELECTRIFICATION Team Name: ESPERANZA Members of the Team: T.Kumar , Pramod J Soni , N.Aravind , V.T.S Vinu Shri . Name of College and City: Karpagam Institute of Technology, Coimbatore. Course of specialization: Electronics And Communication Engineering Batch: 2010-2014 College ID : 7212 Name of the Professor/ Placement officer involved in this project: Dr.M.Sudha Ph.D.,

Choose the stage of Innovation you’ve submitted::

Choose the stage of Innovation you’ve submitted: Our innovation is a prototype.

The Innovation:

The Innovation Summary of the innovation needs to cover the following titles: Chosen industry: Public Services Chosen technologies: Mobility Objective: To design and implement a hybrid power plant for rural electrification. Describe the innovation developed : A hybrid wind mill consisting a turbine which produce maximum power even with minimum force of air.

Compelling need for the innovation:

Compelling need for the innovation Normally wind turbines and solar panels are coupled together for the construction of the hybrid system for any stable power supply. It is a well known fact that wind speed fluctuates during different seasons of the year and in the winter season the wind speed is very low. Also it is observed that the speed of the wind is not constant throughout the year and also the wind speed is not common for all the areas. a wind generator alone cannot provide constant power throughout the year. This is the main drawback in wind power electrification. The existing method of wind mill uses open blades, where as the proposed method uses a turbine with the rotating blades at the centre of turbine. using turbine ensures maximum rotation of blades even when the flow of air is less Transmission loss is very less Highly economical

Impact:

Impact This project will lighten many rural area This project is actually a combo of solar plant and wind mill Being a combo of wind mill and solar plant, at summer season maximum power will be generated from solar plant where as in the winter season the maximum power will be generated from the hybrid wind mill

Implementation:

Implementation The following is the block diagram of implementing the innovation Solar panel Wind turbine Generator (PMDC motor) L O A D Hybrid charge controller Battery bank

TURBINE DESIGN:

TURBINE DESIGN Turbine is designed in such a way that the flow of air inside the turbine is evenly distributed. When the air flow through the duct the velocity is decreased and the pressure is increased which makes the blades to rotate even at low wind speed. The proposed design of turbine is as follows

DUCT:

DUCT

SOLAR TRACKING:

SOLAR TRACKING The solar panel is fitted with light detectors which senses the direction of sun light. The solar panel is coupled with stepper motor. Based on the light sensed by the light detector, the direction of solar panel is adjusted so as to obtain optimum output.

The Competitive Advantage:

The Competitive Advantage Hybrid power plant involves no combustion or fossil fuel. So it does not affect the environment. The power plant has to produce energy independently from any external (weather fluctuations) disturbances. The power can be generated at even low wind speed.

Thank You:

Thank You

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