Well in reading solar studies and standards, it seems that as the sun angle moves away from perpendicular, the dominant loss of efficiency in typical solar cells is reflection from the top glass surface rather than the technology used.
Head on, as in the standard testing method used to rate the watts of a panel, the reflection loss is only 4%. But as the sun gets lower in the sky this becomes a larger factor than loss of light intensity, due to the high angle of incidence of the light against the glass.
At 70 degrees you are already eliminating 30% of the light hitting the solar panel, due to reflection from the surface glass. This is before you compute the lower light levels actually hitting the photovoltaic cells (you can look that up on the power intensity tables, after you subtract out the glass reflection losses off the top).
At 80 degrees you are reflecting over half the light from the glass. Part of why you see the tail drop off so fast in flat mount panels at the beginning and end of the day.
At 85 degrees (where many studies ended) 73 percent of the light is lost before it even gets through the glass.
I'm still looking for an idea of what the Tefzel coating on the front of the UniSolars refractive index is, to compute similar numbers for that technology.
If I had a sheet of glass large enough, it would be interesting to see how much additional low angle current would drop from reflection losses by mounting a unisolar and standard solar panel under it. Not the same as native, but it would show the increased loss which might be instructive to know.
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Wikipedia article on watts per m^2 at various angles of sunlightSolar intensity vs zenith angle and airmass coefficient AM
AM range due to pollution[11] formula (I.1) ASTM G-173[10]
degree W/m2 W/m2 W/m2
- 0 1367 1353 1347.9[15]
0ยฐ 1 840 .. 1130 = 990 ยฑ 15% 1040
23ยฐ 1.09 800 .. 1110 = 960 ยฑ 16% 1020
30ยฐ 1.15 780 .. 1100 = 940 ยฑ 17% 1010
45ยฐ 1.41 710 .. 1060 = 880 ยฑ 20% 950
48.2ยฐ 1.5 680 .. 1050 = 870 ยฑ 21% 930 1000.4[17]
60ยฐ 2 560 .. 970 = 770 ยฑ 27% 840
70ยฐ 2.9 430 .. 880 = 650 ยฑ 34% 710
75ยฐ 3.8 330 .. 800 = 560 ยฑ 41% 620
80ยฐ 5.6 200 .. 660 = 430 ยฑ 53% 470
85ยฐ 10 85 .. 480 = 280 ยฑ 70% 270
90ยฐ 38 20
This illustrates that significant power is available at only a few degrees above the horizon.----
Jim
