Manuscript Number : CSEIT1722260
Generation of Electricity by Using Multiple Resources
Authors(3) :-Kamble Prajkta R, Phule Pallavi G, Kokate Komal L To conquer the negative impacts on the atmosphere and other problems associated with fossil fuels have forced many countries to request and change to alternatives that are renewable to uphold the increasing energy demand. To meet energy demand, renewable energy and some unconventional source of energy can provide the necessary amount of clean energy for climate stabilization and reduce the consumption of fossil fuel. The concept of Energy harvesting is to avail the energy that is usually available in the surroundings and convert it into useful electrical energy. Most people do not realize that there is a lot of energy that is formed around them all the time. Energy can be harvested from various sources such as vibrations, thermal and mechanical sources, etc. Currently, the energy harvesting makes little impact on the overall electricity consumption in a built environment. However, it does improve the overall consumption by a little margin and in the future; this margin magnified will be by the production and implementation of more and more energy harvesting products in the market.
Kamble Prajkta R Energy Generation, Solar Energy, Piezoelectricity, Revolving Door Generation, Peltier Effect, Batteryunit, Inverters, Energy Efficient Lighting. Publication Details Published in : Volume 2 | Issue 2 | March-April 2017 Article Preview
Electrical Engineering, Solapur University, Sahakar Maharshi Shankarrao Mohite Patil Institute of Technology & Research , Shankarnagar Akluj, Maharashtra, India
Phule Pallavi G
Electrical Engineering, Solapur University, Sahakar Maharshi Shankarrao Mohite Patil Institute of Technology & Research , Shankarnagar Akluj, Maharashtra, India
Kokate Komal L
Electrical Engineering, Solapur University, Sahakar Maharshi Shankarrao Mohite Patil Institute of Technology & Research , Shankarnagar Akluj, Maharashtra, India
Date of Publication : 2017-04-30
License: This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) : 809-813
Manuscript Number : CSEIT1722260
Publisher : Technoscience Academy