In one of my earlier blogs , I had suggested that the
Central Government enter into a technology licensing agreement with Kardinia Energy
( Australia ) for their Solar Cells printed on plastic film
( see : Procuring
Technology for “ Printed Solar Film “ / 18 Feb 2022 )
But the march of
technology is endless
Now comes news that
a MIT team has developed ultra thin / ultra small , Solar Cells which can
be “ glued “ onto a ultra lightweight FABRIC – which, in turn, can be fixed on
ANY surface to produce Solar Power
Here is that news :
Paper-Thin
Solar Cell Can Turn Any Surface Into A Power Source / 09
Dec 2022
Extract :
MIT engineers have developed ultralight fabric solar cells that
can quickly and easily turn any surface into a power source.
These durable, flexible solar cells, which are much
thinner than a human hair, are glued to a strong, lightweight fabric, making them easy to
install on a fixed surface.
They can provide energy on the go as a wearable
power fabric or be transported and rapidly deployed in remote locations for
assistance in emergencies.
They are one-hundredth the weight of conventional solar panels,
generate 18 times more power-per-kilogram, and
are made from semiconducting inks using printing
processes that can be scaled in the future to large-area manufacturing.
Because they are so thin and lightweight, these solar cells can be laminated onto many different
surfaces.
For instance, they could be integrated onto the sails of a boat
to provide power while at sea, adhered onto tents and tarps that are deployed
in disaster recovery operations, or applied onto the wings of drones to extend
their flying range. This lightweight solar technology can be easily integrated into
built environments with minimal installation needs.
They found an ideal
material—a composite fabric that
weighs only 13 grams per square
meter, commercially known as Dyneema.
When they tested the
device, the MIT researchers found it could generate 730 watts
of power per kilogram when
freestanding and about 370
watts-per-kilogram if deployed on the high-strength Dyneema fabric,
which is about 18 times more
power-per-kilogram than conventional solar cells.
“A typical rooftop
solar installation in Massachusetts is about 8,000 watts. To generate
that same amount of power, our fabric photo-voltaics would only add about 20 kilograms (44 pounds) to the roof of a house,” he
says.
They also tested the durability of their devices and found that,
even after rolling and unrolling a fabric solar panel more than 500 times, the cells still retained more than 90 percent of their initial power generation capabilities.
Dear Shri R
K Singhji,
To meet our commitment to generate 500 GW of renewable power by 2030, ROOF
TOP SOLAR is the
only answer
Above mentioned FABRIC BASED solar, adds only 20 Kg load on a roof – making
it ideal material , even for tiny huts / houses , found all over India – and
especially in our villages
I believe, to turn Modhera Village ( Gujarat ), into a “ Totally Solar Power based
village “ , cost the government approx. Rs 80 crore
This Fabric Tech could do the same job for Rs 5 Crore ! ( since 18 times more
powerful than conventional
solar panels )
I urge you to approach the MIT team for replicating in India , their “
Commercialization Lab “
With regard,
Hemen Parekh
hcp@RecruitGuru.com / 10
Dec 2022
Related Readings
:
Topmost Candidate for PLI ?............... ………………………(
19 Jan 2022 )
RKS liberates RTSP ……………………………………………………….[
23 Jan 2022 ]
Thank You, Shri R K Singhji : the Green Warrior ………[
26 Oct 2021 ]
Not Good Enough !
……………………………………………………[ 02 Dec 2017 ]
Treading ( gently ) on Solar Power Trading……………….[
18 Oct 2021 ]
No Godfather for Rooftop Solar ?
……………………………….[ 01 June 2021 ]
Market-based Model for Renewable Energy ………………[ 09 June 2021 ]
Congratulations , Shri Saurabh Patelji ………………………[ 31 Dec 2020 ]
How to reduce Carbon Emission to
Net Zero ? .........[ 26 July 2021 ]
CC :
Shri R K Singhji
===========================================
Added on 16 Jan 2023 ( Linkedin Posts ) :
hemen parekhView hemen parekh’s profile • YouDirector at RecruitGuru