The Energy Question Has an Easy Solution

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Revision as of 08:31, 22 March 2026 by Marcin (talk | contribs) (Created page with "Energy payback is now as little as 0.5 years for utility scale PV. Not counting any open source integrated design improvements. To take it to 0.25 year energy payback time, which is impossible, and thus a perfect project for OSE to take on. But if we start with 1MW of PV power, and use 1/2 of that for producing more PV - then the time to breed 20TW, starting from 1 MW - is : =Embodied Energy of PV= {| class="wikitable sortable" ! Component !! Description !! Typ...")
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Energy payback is now as little as 0.5 years for utility scale PV. Not counting any open source integrated design improvements. To take it to 0.25 year energy payback time, which is impossible, and thus a perfect project for OSE to take on.

But if we start with 1MW of PV power, and use 1/2 of that for producing more PV - then the time to breed 20TW, starting from 1 MW - is :





Embodied Energy of PV

Component Description Typical Embodied Energy Share (% of module)
Silicon Feedstock & Ingot Quartz → polysilicon → crystal growth (Czochralski or similar) 25–40%
Wafering Slicing ingots into wafers (kerf loss, sawing energy) 10–20%
Cell Processing Doping, diffusion, etching, deposition (PECVD), metallization 15–25%
Glass (Front Sheet) Tempered low-iron solar glass (~3–4 mm) 10–20%
Encapsulant (EVA/POE) Polymer layers for lamination 3–8%
Backsheet (or rear glass if bifacial) Polymer backsheet or second glass layer 3–10%
Aluminum Frame Extruded frame + finishing 5–15%
Junction Box & Wiring Diodes, copper wiring, connectors 2–5%
Module Assembly Lamination, curing, handling, factory overhead 3–8%
Total ~100%
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