DUMMIES GUIDE TO
Eco FutureLab FZE Technologies
Using both light and heat of solar radiation to produce electricity
Eco Futurelab FZE - The Nano Lens Chroma Solar Intensifier (NLCSI)
echnicians at Eco FutureLab
FZE have developed a
technology to simultaneously
use the light and heat of the
sun to generate electricity in a way that
could make solar power production more
than twice as efficient as existing
methods and potentially cheap enough
to compete with oil.
T
Unlike photovoltaic technology currently
used in solar panels - which becomes
less efficient as the temperature rises the new process excels at higher
temperatures. Called “Eco Futurelab FZE
- The Nano Lens Chroma Solar
Intensifier (NLCSI)
“Or NLCSI, the process is able to surpass
the efficiency of existing photovoltaic
conversion technologies.
Unlike photovoltaic technology currently
used in solar panels -- which becomes
less efficient as the temperature rises
-- the new process excels at higher
temperatures.
“This is really a Innovative breakthrough,
a new energy conversion process, not
just a new material or a slightly different
tweak,” said Ahmet Kianin, CTO and
president of Eco FutureLab FZE, who led
the research group. “It is actually
something fundamentally different about
how you can harvest energy.”
The materials needed to build a device to
make the process work are much better
priced and readily available; meaning the
power that comes from it will be
affordable.
Most photovoltaic cells, such as those
used in rooftop solar panels, use the
semiconducting material
silicon to convert the
energy from photons
of light to
electricity. But
the cells
can only
use a
42%
Until now, no one
had come up with
a way to combine
thermal and solar
cell c onversion
technologies.
portion of the light spectrum, with the
rest 53% Ir +
5% UV just generating heat and not
utilised.
This heat from unused sunlight and
inefficiencies in the cells themselves
account for a loss of more than 50
percent of the initial solar energy
reaching the cell.
NLCSI harvests this wasted energy to
make a much more efficient system. The
problem has been that high
temperatures rapidly decrease the
efficiency of conventional Solar Systems,
Yet the higher the temperatures go, the
better the NLCSI performs.
Until now, no one had come up with a
way to combine thermal and solar cell
conversion technologies.
Ahmet Kianin developed NLCSI by
Applying his experiences in Photonics
technology and looking at other
applications in Military technologies, he
could by coating a piece of
semiconducting material with a thin layer
of a new mixture, it would make the
material to use both combined light and
heat to generate electricity.
24/7 NLCSI is capable of producing
energy Day and Night, giving added
Value to the customer’s installations.
“What we’ve developed is a new physical
process that is not based on standard
photovoltaic mechanisms, but can give
you a photovoltaic-like response at very
high temperatures,” Ahmet Kianin said.
“In fact, it works better at higher
temperatures, the higher the
temperature the better.”
While most silicon solar cells have been
rendered inert by the time the
temperature reaches 100 degrees
Celsius, the Eco FutureLab FZE device
doesn’t hit peak efficiency until it is well
over 200 degrees C.
“The light comes in and hits our NLCSI
device, first we take advantage of both
the incident light and the heat that it
produces, and then we transfer the heat
to our thermal conversion systems, for
use in Air Conditioning system or further
electricity Generation” Amet Kianin said.
“So the NLCSI process has two really big
benefits in energy production over
normal technology.”
Contact details
Eco FutureLab FZE
London - UK
London W11 1LJ
Tel.+447813992353
Fax.+447092101460
Dubai - UAE
PO Box. 123758
Dubai-UAE
Tel. +971567912014
Fax.+447092101460
email. [email protected]