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INTRODUCTION
Energysave ElectroCoat is a new innovative Nano-Technology that a 75 year old polymer scientist developed within the last 15
Years and is now close to perfection and could be ready for the international market within a year to maximum two years,
providing that a funding partner or investor is found.
History:
In 2000, a South African invented breathable, nano-technology paint, set up commercial production.. Since then, the technology
has been expanded with applications in self-levelling floor screeds, textured wall coatings, flexible crack repair products and
other decorative and structural materials. They also have fire retardant and heat insulation properties which supply other
architectural benefits. A special application is the encapsulation of asbestos panels or insulation, removing the need for
extensive rebuilding and renovation. ElectroCoat is a further invention by the same team.
Past performance record:
• Research at US, Polymer Science: Invention, patents and pilot plants in the field of bio- technology and membranes for water
purification. Now commercially used.
• Plastic processing. Latest was initialising the development and patenting of the “Lomold” process for large and stress free
composite mouldings. Now commercially used.
• Coatings: Nano technology , breathable cementitious paints and other self levelling floor screeds and specialised coating
screeds. Now commercially used.
•
1. ILLUSTRATION OF DESIGN AND MODE OF OPERATION
1. Baseplate / Material of choice
For example: Duroplastics plastics
- Readily available mounting systems can be used
2. Mylar film or an other sunlight durable coating,
to be coated on base plate (UV Stabilized)
3. Distance between the cells about 5-6mm, is filled
with a electrode grid printed with on the market
available silver nitrate (in nano-size) to maximize
and stabilize the performance. This together with
ionic electrolytes and improved active coating and
flow-directing connections.
2. ILLUSTRATION OF DESIGN AND MODE OF OPERATION
5. ½ of the amount of cells per Panel is made of a
GRAPHITE based material which is on the market
available as sealing product for high pressure and high
temperature applications in combust engines (later
improvements of efficiency possible by use of Graphine)
- Connected in Series
6. The other ½ of the amount of cells per Panel is made of a
similar substance to Titanium dioxide
- Connected in parallel
4. Each Cell has a size of 4-6cm, which can vary in the
further development progress
3. ILLUSTRATION OF DESIGN AND MODE OF OPERATION
7. Sealing of Zells and connecting electro grid, through clear
paint coating and/or Top Cover in form of readily on the Market
availble PCM (Phase Change Material) Board or a Cover of
other Material which lets pass UV-radiation, but is weather
resistant and can endure heat.
Source:
https://en.wikipedia.org/wiki/Phase-
change_material
Theoretically the ground coating and
the Cells (which can be sprayed on
with a strickle) as well as Top Coating
could be sprayed with a spray gun
and installed on any surface, just the
electrode grid should be preprinted
and put on the Cells to capture and
direct the flow of the generated
electricity of each cell.
1.4 ILLUSTRATION OF DESIGN AND MODE OF OPERATION
8. Weather proof sealing in production of Photovoltaic Panel as well as commercially available mounting technology still
has to be installed
House attachable
Photovoltaic
Panels Custom-made Photovoltaic
Panels for large projects
Aluminum Profile
Solar Module
Mounting
Bracket
Roofing
TilesLattice
Counter Plates
Roof Hooks
Rafters
1.5 THE PROTOTYPE INTRODUCTION
Prototype: Nano Photovoltaic Cells hand painted cardboard
This Picture shows a hand painted Prototype, it is
a 20 Cell Photo galvanic colour module on
cardboard and positioned with Sellotape.
1.5 THE PROTOTYPE INTRODUCTION
The performance of our Prototype:
The size of one cell in an Solar Panel: 60 x 120 mm
Voltage: up to 1,5 Volts
Ampere: up to 44 Milliampere
This Cells in one Solar Panel 3 foot x 6 foot (91cm x 183 cm)
= 180 Cells connected in series and parallel = 534 watts
The maximum achieved performance is 534 watts for the (91cm x 183 cm) Solar Panel
That amounts to 320 Watt / m2 and is attractively priced compared to high performance "polycrystalline silicon"
modules, which are not environmentally friendly in production and in performance only up to 200 Watt / m2
Our innovative Solar Panels can even store energy!!!
–We achieve this already with this first Prototype, our performance variance is due to our instable makeshift module, we
can still improve the performance!!!
The Module of the next generation will have a performance of over 320 Watt / m2 and thus exceeds market leadership
and is environmentally friendly in the production process, we use waste products from wine production and all materials
used by us for production are readily available on the international Market…
1.6 THE PROTOTYPE INTRODUCTION
Prototype: This is a 5 minicell module
Prototype: Sand which generates electricity
1.7 ADVANTAGES OF ENERGYSAVE ELECTROCOAT MODULES
Advantages of Energysave Electrocoat Modules:
- Energy can be stored in the modules
- Also generate electricity in diffuse light
- Better weather resistance and robustness because no
solar glass cover or brittle and impact sensitive silicon
is required
- Environmentally friendly production
- Simple production processes
- Much lower production costs as nowadays
commercially available monocrystalline and
polycrystalline modules
- Easy adaptation to customer requirements
- Can also be produced in other colors on customer
request
The modules also produce direct current, which is
fed into the inverter and then fed into the grid
Inverter
Feed
meter
consumption
meter
Public Grid
2.1 PRICE AND PERFORMANCE RATIO
At the moment we are conservatively estimating production costs of approx.
0.15 Euro per watt peak
The cost estimate taking into account the knowledge of building the Protoype we can estimate a future
cost of production for a solar Panel of 35,00 Euro per square meter. This compared to the usual
market prices, we are far below the usual commercial prices and thus have a huge advantage
compared to international leaders in the Photovoltaic market like SOLARWORLD, FIRST SOLAR, we
can produce for 30% of standard market prices, as shown below:
5 kWp Photovoltaic system on house roof approx. 50m2 area
Costs: today approx. 8500 Euro
Minus: 10% power supply and meter 850 Euro
Minus: Inverter 2000 Euro
= 5650 Euro / 50m2
= 113 Euro per m2 Selling price
Energysave Electrocoat Solar Panel = 35 Euro estimated manufacturing costs per m2
Source:
http://www.solaranlagen-
portal.com/photovoltaik/kos
ten
LOWEST REPORTED PRODUCTION COSTS FROMGLOBAL MARKET OUTLOOK FOR SOLAR POWER FROM 2016 TO 2020
• China 0.37 US Dollar per Watt Peak in Q1/2016
• Canadian Solar targets Module costs as low as 0.29 US Dollar per Watt
peak in Q4 / 2017
!!! WE CAN BEAT THIS BY FAR !!!
2.2 PRICE AND PERFORMANCE RATIO
Optional: costs for photovoltaic energy storage
Into the total cost of 8500 euros for a 5 kWp plant are not included the cost of a photovoltaic
energy storage. These devices have become an issue in sales talks for a new photovoltaic system,
especially since the German storage support program, which has been available since May 2013.
The self-consumption of solar power is becoming increasingly attractive as the feed-in tariff continues
to fall. Photovoltaic energy storage for a one family home currently costs between € 6,000 and €
15,000. With this aid an average 5kWp plant can be up to € 3,000 cheaper.
As mentioned before, Energysave Electrocoat modules have the
positive characteristic of storing energy. The hand-painted prototype
on cardboard has operated LEDs 7 times 24 hours without even
being exposed to sunlight. More accurate data still need to be
determined in the next phase and with the next prototype…
Until now, we have not yet made an attempt to determine the exact
storage capacity and thus the savings in the battery purchase.
(This will be done in the next phase and with the next prototype)Source: http://www.solaranlagen-
portal.com/photovoltaik/kosten
MARKET POTENTIAL
• Estimated Market Growth till 2020 is an increase from 229 GW to anything between 500 to 700
GW installed capacity
• Global cummulative Growth in 2015 amounts to 29% new installed capacity
• Alone India wants to develop 100 GW Solar Power till 2022
• 1 GW costs around 400 Million US Dollars
• TOP 3 Global Markets are China, Japan and the USA. The annual growth rate from 2014
installed and commissioned PV of 6.26 to 7.36 GW in 2015 amounts to 18%
• Open orders in 2015 amount to more than 1 billion US Dollar in 2015 and many PV producers
have reached maximum output in factory and have delivering problems in requested time
OUTLOOK TO 2020 GLOBAL PV INSTALLATIONS
At these growth rates is
plenty space for new Market
competitors
PHTOVOLTAIC MARKET GROWTH IN 10 YEARSEQUALS TO 450%
At least 120 Billion US Dollar will
be invested worldwide into
Photovoltaik Energy till 2020!!!
MARKETS OUR INNOVATION CAN COMPETE IN
•Monocrystalline Modules
•Polycrystalline Modules
•Thin film Modules
•Thin film flexible Modules
•Colored Modules
OPTION OF STARTING OWN PV MANUFACTURING AND SELLING COMPANY
• Sale of inverters, batteries (Suppliers of those can be potential Partners
• Project Development (Companies in this field can also be potential Partners)
• EPC Engineering, Procurement and Construction Services can be offered
• Sale of commecial and large PV Projects
• Rooftop PV Sale and installation
• For example IKEA (a very strong international Furniture Market) goes into PV System Sales
A Possible Partner for us could be any Company that is manufaturing
and/or selling Photovoltaic or renewable energy systems to use their Sales
Network and Production and Office facilities !!!
(Please see attachment with list of worldwide Solar Companies)