بحث بعنوان Flywheel Power Multiplication for Electrical Energy Storage Applications & Technologies
بحث بعنوان
Flywheel Power Multiplication for Electrical Energy Storage Applications & Technologies
Srinivas Chaganti Bhaskar, Chaganti Bala and Chaganti Arjun
Company Name: – Cow and Calf Dairy Farms Limited (Research Institute), Name of City: – Hyderabad, Telangana State, India.
FLYWHEEL POWER MULTIPLICATION
Evaluation of Hybrid Flywheel Power multiplication
innovation, for creating Impacts on Climate Change by
eradicating global warming and pollution, There by cascading
flywheel power multiplication technology meets the demand
challenges in Clean and Green Energy sector “Small grid is
smart grid” Where you generate there you distribute.
ABSTRACT
This Case study of multi-hour electrical generation using the
available rotating force from a specific weight, diameter, and
rpm is considered in flywheel power multiplication
technology because we are designing energy storage projects
for generating clean electricity using Gear-flywheel is the
innovation.
This technology major advantage is the design, where
distribution of mass in a given area of the flywheel is the key
to success. Flywheels with Different geometrical figures are
used for multidimensional requirements.
Here is an Example for distributing mass in a given area for
designing a flywheel cum energy storage system
Vertical design:- 67 Ton weight, Diameter 3 meters, Rpm
1800, Surface Speed (m/sec) 282.78, Ring (joules)
2678811701.39, useful energy 744.11 Kwh ,Motor 350 kW.
Flywheel in cylindrical shape
Horizontal design: – 67 Ton, Diameter 12 meters, Rpm 1800,
Surface Speed (m/sec) 1131.12, Ring (joules)
42860987222.39, useful energy 11905.82 Kwh. Motor 350
kW. Flywheel in disc shape round and flat
Keywords: Flywheel, Power Multiplication, Gravity, PMG generator, Gear flywheel
Conclusion
This technology mainly rotates in and around weight and
space management, there by using a specified weight i.e.
For example
In the present market design 67 Ton is designed as a cylinder
by using carbon fiber-reinforced plastic flywheels fixed in a
vacuum chamber and rotated in between 6000 to 16000 Rpm
using magnetic bearings and after reaching the peak Rpm then
deceleration of the flywheel starts.
Here the pulse of the flywheel recorded is maximum in
between 1 to 5 min. Then again the process of acceleration
and deceleration has to be repeated. There is no continuous
mode.
In our technology 67 Ton weight is distributed on a large
surface area there by bigger surface area is available and will
generate more surface velocity there by more energy is stored
in the rotating flywheel mass.
In our design we make from 67 Ton a 12 meter diameter flat
and round circle flywheel and rotate below 2000 Rpm using
normal SKF bearings there by please compare the design of
the cylinder type flywheel where mass is compressed and
made into a cylindrical flywheel and when mass is spread on a
large area as shown in our design the flywheel is designed as a
merry go round disc.
If the surface velocity is more the flywheel will rotate for
more time.
Flywheel power multiplication design is more efficient than
the designs available in the commercial market. In our
innovation the design cost is less and more efficient.
Recommendations
Flywheel power multiplication is recommended for existing
power generation technologies in the present market because
of the efficient plant load factor compared to other
technologies. For example solar PLF has in between 10 to
13 % efficiency, wind PLF has in between 15 to 20%, Hydro
PLF has in between 70 to 80 %, Thermal PLF has in between
70 to 80 %, and Nuclear PLF has in between 70 to 80 % and
Flywheel power multiplication PLF 98%.
Future Work
We are designing flywheel power multiplication energy
storage application by using road ways, air ways, and seaways
using technologies for multi megawatt power generation for
our future projects. For example in this sector we will be
using the available electrical vehicles to rotate the flywheel
fixed in vertical or horizontal designs.
In air ways we will keep a flywheel under side of the air craft
and when the plane climbs to the maximum height the
flywheel is lowered down and rotated by the wind blowing
under side of the plane and generated electricity is stored in
the batteries. In marine ways a flywheel is fixed in the water
and a boat or a ship used to rotate the flywheel. By going
Round of the defined path and generated energy is stored in
the batteries.
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