Design and Fabrication of Windmill Using
Magnetic Levitation
E. IJIES (Eds.) International Journal of Innovations In Engineering and Science, 1 (1):
18-21(July 2016)
Abstract
The popularity of renewable energy has
experienced a significant upsurge in recent times due to the
exhaustion of conventional power generation methods and
increasing realization of its adverse effects on the
environment. This popularity has been bolstered by cutting
edge research and ground breaking technology that has
been introduced so far to aid in the effective tapping of
these natural resources and it is estimated that renewable
sources might contribute about 20%-50% energy
consumption in the latter part of the 21st century. This
research focuses on the utilization of wind energy as a
renewable source. In the United States alone, wind capacity
has grown about 45% to 16.7GW and it continues to grow
with the facilitation of new wind projects. The aim of
research is to design and implement a magnetically
levitated vertical axis wind turbine system that has the
ability to operate in both high and low wind speed
conditions. Our choice for this model is to showcase its
efficiency in varying wind conditions as compared to the
traditional horizontal axis wind turbine and contribute to
its steady growing popularity for the purpose of mass
utilization in the near future as a reliable source of power
generation.
%0 Journal Article
%1 noauthororeditor
%D 2016
%E IJIES, Editor
%J International Journal of Innovations In Engineering and Science
%K Magnet energy levitation renewable turbine wind
%N 1
%P 18-21
%T Design and Fabrication of Windmill Using
Magnetic Levitation
%U http://www.ijies.net/archives/vol-1-no-1
%V 1
%X The popularity of renewable energy has
experienced a significant upsurge in recent times due to the
exhaustion of conventional power generation methods and
increasing realization of its adverse effects on the
environment. This popularity has been bolstered by cutting
edge research and ground breaking technology that has
been introduced so far to aid in the effective tapping of
these natural resources and it is estimated that renewable
sources might contribute about 20%-50% energy
consumption in the latter part of the 21st century. This
research focuses on the utilization of wind energy as a
renewable source. In the United States alone, wind capacity
has grown about 45% to 16.7GW and it continues to grow
with the facilitation of new wind projects. The aim of
research is to design and implement a magnetically
levitated vertical axis wind turbine system that has the
ability to operate in both high and low wind speed
conditions. Our choice for this model is to showcase its
efficiency in varying wind conditions as compared to the
traditional horizontal axis wind turbine and contribute to
its steady growing popularity for the purpose of mass
utilization in the near future as a reliable source of power
generation.
@article{noauthororeditor,
abstract = {The popularity of renewable energy has
experienced a significant upsurge in recent times due to the
exhaustion of conventional power generation methods and
increasing realization of its adverse effects on the
environment. This popularity has been bolstered by cutting
edge research and ground breaking technology that has
been introduced so far to aid in the effective tapping of
these natural resources and it is estimated that renewable
sources might contribute about 20%-50% energy
consumption in the latter part of the 21st century. This
research focuses on the utilization of wind energy as a
renewable source. In the United States alone, wind capacity
has grown about 45% to 16.7GW and it continues to grow
with the facilitation of new wind projects. The aim of
research is to design and implement a magnetically
levitated vertical axis wind turbine system that has the
ability to operate in both high and low wind speed
conditions. Our choice for this model is to showcase its
efficiency in varying wind conditions as compared to the
traditional horizontal axis wind turbine and contribute to
its steady growing popularity for the purpose of mass
utilization in the near future as a reliable source of power
generation.},
added-at = {2017-03-12T08:41:57.000+0100},
biburl = {https://www.bibsonomy.org/bibtex/2a0712202e2be5f485649025cd59f9a39/journalijies},
editor = {IJIES, Editor},
interhash = {cee0b144a54aa074cf14ede87fb12ca8},
intrahash = {a0712202e2be5f485649025cd59f9a39},
journal = {International Journal of Innovations In Engineering and Science},
keywords = {Magnet energy levitation renewable turbine wind},
month = {JULY},
number = 1,
pages = {18-21},
timestamp = {2017-03-12T08:41:57.000+0100},
title = {Design and Fabrication of Windmill Using
Magnetic Levitation},
url = {http://www.ijies.net/archives/vol-1-no-1},
volume = 1,
year = 2016
}