TO DESIGN HYBRID(SOLAR-WIND-GENERATOR) POWER SYSTEM FOR REMOTE AREAS

Project Title

TO DESIGN HYBRID(SOLAR-WIND-GENERATOR) POWER SYSTEM FOR REMOTE AREAS

Project Area of Specialization Shared EconomyProject Summary

The project is a functioning hybrid generation system. The goal of the project is to use both wind and solar power to reliably and efficiently power a small load, as one might see in a small household. A photovoltaic array will be used to generate solar power. A motor, whose speed is governed by wind speed readings, will simulate a wind turbine to produce power. Both generation systems will have separate power electronics to convert from DC and AC as needed, as well as altering the waveform to suit the load. A battery bank will be used to store charge in order to maintain constant power to the load when weather conditions are not optimal.

Project Objectives

•To Design a wind turbine for generating of power form wind.

• To Design the charge controller from wind and solar system.

• To Design battery back up system.

.To convert DC power to AC power for residential use

Project Implementation Method

•Intermittent energy resources and energy resources unbalance are the most important reason to install a hybrid energy supply system.

The Solar PV wind hybrid system suits to conditions where sunlight and wind has seasonal shifts

. •As the wind does not blow throughout the day and the sun does not shine for the entire day, using a single source will not be a suitable choice.

A hybrid arrangement of combining the power harnessed from both the wind and the sun and stored in a battery can be a much more reliable and realistic power source.

The load can still be powered using the stored energy in the batteries even when there is no sun or wind.

•In the monsoon seasons, the effect of sun is less at the site and thus it is to use a hybrid wind solar system. •The system components are as above. 
 

Benefits of the Project

• Very high reliability (combines wind power, and solar power) • Long term Sustainability and Long term warranty

• High energy output (since both are complimentary to each other)

• Cost saving (only one time investment)

• Low maintenance cost (there is nothing to replace)

• No pollution, Clean and pure energy

• Provides un-interrupted power supply to the equipment

• The system gives quality power out-put DC to charge directly the storage battery or provide AC.

• The system can be designed for both off-grid and on grid applications.

• Efficient and easy installation, longer life 
 

Technical Details of Final Deliverable

 A fully functioning solar generation simulation which includes: PV cells, MPPT/boost converter, battery, inverter, and a load.
 A fully functioning wind generation simulation which includes: (insert wind components)
 The simulated solar design modeled and tested in hardware so that a load of up to 200 W can be provided for.
 The simulated wind design modeled and tested in hardware so that a load of up to 200 W can be provided for.
 A fully functioning solar/wind hybrid generation simulation which is comprised of the two previous simulations.
 The hybrid design modeled and tested in hardware so that a load of up to 200 W can be provided for.

Final Deliverable of the Project Hardware SystemType of Industry Energy Technologies Shared EconomySustainable Development Goals Affordable and Clean EnergyRequired Resources