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Did research and ordered amorphous solar cells

A project log for Foldable 50 W ultra-portable solar system for $150

comparatively low budget device for charging your camera/laptop/GPS/cell phone/sat phone/ham radio/flashlight batteries while backpacking

dylan-bleierDylan Bleier 04/25/2015 at 23:541 Comment

I learned that you need the right encapsulating polymers or your solar cells will fail after a year or two or three instead of lasting 20 or 30 or even 50 years. The wrong materials will corrode your cells, introduce water vapor, acetic acid, etc. which will kill your cells. It's also important to seal each panel or module properly to make sure there's no water vapor that gets trapped inside. Also, I decided that it doesn't make sense to use super brittle, non-flexible solar cells in a foldable, portable device for backpacking. That left me with CIGS or amorphous Si cells; CIGS cells were very attractive but the necessary sealing films are very hard to find in low quantity and CIGS cells are very sensitive to moisture. So, I ordered some a-Si cells and some EVA encapsulating film.


semi-flexible thin-film solar cells (CIGS, CdTe, etc):


semi-flexible amorphous Si:


(poly- or) mono-crystalline Si:


I decided to go for the flexible amorphous silicon cells, since they will probably last much longer than the CIGS cells, and because a compatible encapsulating material (EVA) is available for them.

The reason I need to encapsulate the cells in EVA is that it is non-corrosive, UV-resistant, flexible, clear, non-scratch, anti-reflective, and thus seals everything from the elements. The basics of the process are that you melt it on while pulling a vacuum on the cells to eliminate any air bubbles, but I will have to learn.

Once I've wired together the cells and encapsulated them, I will sew/glue/melt the excess encapsulating film around the border of each cell into the fabric that I will use for the backing of the device. Then I will fold it all up and stick it in a rigid box and it will basically be finished. Oh and I need a power controller to get 18/19V (laptop), 12V (lots of things run on 12V), and 5V (USB).

If the a-Si cells won't give me 50 W, I'll either get more of the same cells or start over with either CIGS or mono-Si cells.


How to calculate power output:

\color{White} \large \color{White} \large \color{White} \large \color{White} \large \color{White} \large \color{White} \large \frac{\big(No.OfCells\big) \big(area/cell(in^2)\big)}{\big(1550(in^2/m^2)\big)} \big(est.SolarFlux(W/m^2)\big) \big(cellEff.\big) = est.Output (W)The maximum (ideal) solar flux at earth's surface is 1050 W / m^2, but there are seasonal effects that decrease this, and it's not ideal when the sun is not at the zenith, and there are effects related to being at about 40ºN where it is always cloudy...


degradation data - http://www.nrel.gov/docs/fy12osti/51664.pdf

https://www1.eere.energy.gov/solar/pdfs/pvmrw2011_32_tf_coyle.pdf

insolation info - http://www.mpoweruk.com/solar_power.htm

research efficiency (not matched by commercial modules) - http://www.nrel.gov/ncpv/images/efficiency_chart.jpg

dupont presentation on encapsulants: http://www2.dupont.com/Photovoltaics/ko_KR/assets/downloads/pdf/presentations/06_DPVS_Latest_developments_thin-film_JIKim.pdf

more nrel on encapsulants: http://www.nrel.gov/docs/fy09osti/44666.pdf

dupont on front sheets: http://www2.dupont.com/Teflon_Industrial/en_US/assets/downloads/k15778.pdf

Discussions

Stalin wrote 08/26/2017 at 01:32 point

Hi. I have a question: Why you said CIGS solar cell is not compatible with EVA sealing film? I have Nanosolar flexible solar cell (CIGS) and I am thinking cover it with EVA. I would like to know your experience about.

Thanks.

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