Silicon: Difference between revisions
Jump to navigation
Jump to search
| (38 intermediate revisions by the same user not shown) | |||
| Line 1: | Line 1: | ||
=Working Doc= | |||
<html> <iframe src="https://docs.google.com/presentation/d/e/2PACX-1vRx3NswzzBMiFfR_-DDcp0fu2sJDZkF34c_rI8ukCecdZLzsJwrSSV4kvyFEBDzvThx2MzSSoIo4BKf/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="389" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe> </html> | |||
[https://docs.google.com/presentation/d/1lLUKelx71N9z4EbPIubbdW2NWz3Mt4Zb-jVQKBBXq-I/edit#slide=id.g123f2be0d6c_0_3 edit] | |||
=Purity Levels= | |||
*Metallurgical grade silicon is 98% (one nine?) [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=how+many+nines+pure+is+metallurgical+grade+silicon&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*Solar grade silicon is 6-8N [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+purity+is+polysilicon&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*Microchip silicon (Electronic Grade Silicon) is nine nines pure, whereas power transistor silicon is 6 nines. [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=is+power+transistor+grade+silicon+as+pure+as+silicon+for+microchips&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5]. Solar grade silicon is same purity as transistor grade - 6 nines. [https://www.google.com/search?q=how+many+nines+pure+is+solar+grade+silicon&sca_esv=4ea9ed7b68a81626&sxsrf=ADLYWILUYubJ8N748Zd9-W6Q4ytZ_PDmiQ%3A1733709816649&ei=-E9WZ6iaJ67pwN4PncHlwA8&ved=0ahUKEwio9o6uzJmKAxWuNNAFHZ1gGfgQ4dUDCA8&uact=5&oq=how+many+nines+pure+is+solar+grade+silicon&gs_lp=Egxnd3Mtd2l6LXNlcnAiKmhvdyBtYW55IG5pbmVzIHB1cmUgaXMgc29sYXIgZ3JhZGUgc2lsaWNvbjIFECEYoAEyBRAhGKABMgUQIRigATIFECEYqwIyBRAhGKsCMgUQIRirAjIFECEYnwVIzShQAFiOJ3AEeAGQAQCYAXigAb8SqgEEMjAuNbgBA8gBAPgBAZgCHaACjxPCAgQQIxgnwgIIEAAYgAQYogSYAwCSBwQyMC45oAfaiQE&sclient=gws-wiz-serp]. | |||
*3 nines pure by acid leaching [https://www.sciencedirect.com/science/article/abs/pii/0304386X9090007O#:~:text=The%20purification%20of%20metallurgical%20grade,4%2C%20HCl%20and%20HF).] | |||
*Czochralski silicon is 11 nines pure [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+purity+of+silicon+does+chochralski+process+attain&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
**Microchip silicon is nine nines pure, whereas power transistor silicon is 6 nines. [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=is+power+transistor+grade+silicon+as+pure+as+silicon+for+microchips&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*Five nines achieved by electron beam degassing + Chochralski [https://www.researchgate.net/publication/325458749_Solar_Cells_Fabricated_in_Upgraded_Metallurgical_Silicon_Obtained_Through_Vacuum_Degassing_and_Czochralski_Growth]. Interesting in that electron beam degas takes place of Siemens process. Result: cells only 13% good. But can go higher if PERC TopCon etc? | |||
*{{check}}Acid leaching followed by multiple zone refining can reach 9 nines. [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+purity+of+silicon+can+be+obtained+from+3+nine+silicon+by+using+zone+refining&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*3 nines achievable directly from molten salt electrolysis of silica? [https://www.addisonengineering.com/about-silicon.html]. Hairy. [https://www.frontiersin.org/journals/chemistry/articles/10.3389/fchem.2023.1133990/full] | |||
=Production Processes= | |||
*Siemens process involves chemical vapor deposition of silanes, with metallurgical grade silicon as the feedstock. [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+purity+is+polysilicon&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*Fluidized bed reactor - similar feedstocks as Siemens, but is continuous, thus capable of lower energy use | |||
*3 possible processes: upgraded metallurgical, Siemens, Fluidized Bed - [https://ratedpower.com/glossary/polysilicon/#:~:text=to%20automotive%20electronics.-,How%20is%20polysilicon%20made%3F,use%20for%20a%20short%20time.] | |||
*Upgraded metallurgical silicon requires about 25% less energy than standard (Siemens) | |||
*Fluidized bed reactor method uses 45-80 kWhr/kg of solar grade silicon produced [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+is+the+energy+required+to+produce+1+kg+of+solar+grade+silicon+by+the+fluidized+bed+reactor+process&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*Siemens process takes 70-90 kWhr/kg [https://www.google.com/search?q=what+is+the+energy+required+to+produce+1+kg+of+solar+grade+silicon+by+the+siemens+process&sca_esv=b6c726d8a6b78b99&sxsrf=ADLYWIJbA61lH3fzosQ-9Eze8Or4sYU7BQ%3A1733713037914&ei=jVxWZ-rFN-DhwN4PqcHE2QM&ved=0ahUKEwiqwJGu2JmKAxXgMNAFHakgMTsQ4dUDCA8&uact=5&oq=what+is+the+energy+required+to+produce+1+kg+of+solar+grade+silicon+by+the+siemens+process&gs_lp=Egxnd3Mtd2l6LXNlcnAiWXdoYXQgaXMgdGhlIGVuZXJneSByZXF1aXJlZCB0byBwcm9kdWNlIDEga2cgb2Ygc29sYXIgZ3JhZGUgc2lsaWNvbiBieSB0aGUgc2llbWVucyBwcm9jZXNzSABQAFgAcAB4AZABAJgBAKABAKoBALgBA8gBAPgBAZgCAKACAJgDAJIHAKAHAA&sclient=gws-wiz-serp] | |||
*What about zone refining directly from metallurgical grade silicon? [https://www.google.com/search?q=can+zone+refining+process+be+used+to+purify+metallurgical+grade+silicon+to+solar+grade&sca_esv=4ea9ed7b68a81626&sxsrf=ADLYWIK5jJ2JMsD1FWy-1cW5En5vfrEZVA%3A1733713793215&ei=gV9WZ8DGDNvep84Px4W6wAo&ved=0ahUKEwiAi6WW25mKAxVb78kDHceCDqgQ4dUDCA8&uact=5&oq=can+zone+refining+process+be+used+to+purify+metallurgical+grade+silicon+to+solar+grade&gs_lp=Egxnd3Mtd2l6LXNlcnAiVmNhbiB6b25lIHJlZmluaW5nIHByb2Nlc3MgYmUgdXNlZCB0byBwdXJpZnkgbWV0YWxsdXJnaWNhbCBncmFkZSBzaWxpY29uIHRvIHNvbGFyIGdyYWRlSABQAFgAcAB4AJABAJgBAKABAKoBALgBA8gBAPgBAZgCAKACAJgDAJIHAKAHAA&sclient=gws-wiz-serp] | |||
*How about UMG by vacuum melting and directional solidification? [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+methods+of+solar+grade+silicon+production+achieve+purity+without+chemical+vapor+deposition&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5]. Zone refining is a specific type of directional solidification. [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=is+directional+solidification+same+as+zone+refining+of+silicon&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*UMG can include zone refining, acid leaching, plasma treatment, vacuum melting, slag treatment. [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=what+processes+are+typically+used+to+upgrade+metallurgical+grade+silicon+to+solar+grade&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*{{check}}Zone refining takes several kw/kg [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=how+much+energy+does+zone+refining+of+silicon+take&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
*{{check}}Lots is in the research phase. Zone refining, solvent refining, and acid leaching is a winning combo. Promise of lower energy use than Siemens. See summary on p. 33 of this MGS refining thesis. [https://utoronto.scholaris.ca/server/api/core/bitstreams/cf972571-a7c6-4676-a991-0bf360bcf17a/content] | |||
=Energies= | |||
*40 kWhr/kg via UMG route? [https://www.google.com/search?sxsrf=ALeKk026QG9BbsZl0rNsBS9KmerMgczY_w%3A1602863734253&source=hp&ei=dsKJX6q8DJDYsAXHkpG4Cw&q=how+much+energy+is+required+to+make+solar+grade+silicon+bu+the+upgraded+metallurgical+silicon+route+compared+to+the+fluidized+bed+reactor+method&btnK=Google+Search&oq=how+to+configure+nvidia+geforce+gtx+1650+super+on+linux+mint&gs_lcp=CgZwc3ktYWIQAzIFCCEQoAEyBQghEKsCMgUIIRCrAjoOCAAQ6gIQtAIQmgEQ5QI6DgguELEDEMcBEKMCEJMCOggILhDHARCvAToLCC4QsQMQxwEQowI6CAgAELEDEIMBOggILhCxAxCDAToFCAAQsQM6AggAOgQIABAKOgYIABAWEB46CAghEBYQHRAeOgcIIRAKEKABUMsQWOmzAWD8tAFoBnAAeACAAeQGiAGhS5IBDTExLjQ3LjMuMi42LTGYAQCgAQGqAQdnd3Mtd2l6sAEG&sclient=psy-ab&ved=0ahUKEwiqz4DcvLnsAhUQLKwKHUdJBLcQ4dUDCAk&uact=5] | |||
=Patents= | |||
*Fluidized bed reactor, pure silicon granule producer [https://patents.google.com/patent/US6007869A/en?q=(siemens+process)&oq=siemens+process]. Continuous version of Siemens process. | |||
=Siemens Process= | |||
*Si+HCl gets trichlorosilane + numerous impurities reacting with Cl. These are distilled in a column. | |||
=Prices 2024= | |||
*$6 China. $22 rest of world. [https://www.bernreuter.com/polysilicon/price-trend/] | |||
=PV Panel Embodied Energy= | =PV Panel Embodied Energy= | ||
*And this discusses poly si vs mono si [https://blog.ucsusa.org/charlie-hoffs/how-are-solar-panels-made/#:~:text=This%20process%20uses%20a%20lot,hour%20than%20coal%2Dpowered%20electricity.] | *And this discusses poly si vs mono si [https://blog.ucsusa.org/charlie-hoffs/how-are-solar-panels-made/#:~:text=This%20process%20uses%20a%20lot,hour%20than%20coal%2Dpowered%20electricity.] | ||
*embodied energy of 165-375 kWhr/kg [https://onlinelibrary.wiley.com/doi/10.1002/solr.202200458#:~:text=Ingot%20growth%20from%201%20kg,kWh%20kg%20Si%20wafer%E2%88%921. ] | *{{check}}embodied energy of 165-375 kWhr/kg [https://onlinelibrary.wiley.com/doi/10.1002/solr.202200458#:~:text=Ingot%20growth%20from%201%20kg,kWh%20kg%20Si%20wafer%E2%88%921. ] | ||
**Good news - 65% of all energy goes into the wafers, as opposed to everything else (glass + All + EVA) according to same link | |||
**Similar for amorphous silicon [https://www.google.com/search?q=what+is+the+embodied+energy+per+kilogram+of+amorphous+silicon&oq=what+is+the+embodied+energy+per+kilogram+of+amorphous+silicon&gs_lcrp=EgZjaHJvbWUyBggAEEUYOdIBCDg2MDlqMGo0qAIBsAIB&sourceid=chrome-mobile&ie=UTF-8] | **Similar for amorphous silicon [https://www.google.com/search?q=what+is+the+embodied+energy+per+kilogram+of+amorphous+silicon&oq=what+is+the+embodied+energy+per+kilogram+of+amorphous+silicon&gs_lcrp=EgZjaHJvbWUyBggAEEUYOdIBCDg2MDlqMGo0qAIBsAIB&sourceid=chrome-mobile&ie=UTF-8] | ||
*Compare to steel at 20 MJ/kg [https://www.google.com/search?q=what+is+the+embodied+energy+of+steel&sca_esv=9360e7f17122653e&sxsrf=ADLYWILnZrV0U_M4TyJlSYlQDrEA_SXC-g%3A1733191918085&ei=7mhOZ7jfBKOYptQPs_3d0AQ&oq=what+is+the+embodied+energy+of+steel&gs_lp=EhNtb2JpbGUtZ3dzLXdpei1zZXJwGgIYAiIkd2hhdCBpcyB0aGUgZW1ib2RpZWQgZW5lcmd5IG9mIHN0ZWVsMgUQABiABDIFECEYoAEyBRAhGKABMgUQIRigATIFECEYoAEyBhAAGBYYHjILEAAYgAQYhgMYigUyCBAAGIAEGKIESMVQULMVWN9NcAJ4AZABApgBwQGgAdwbqgEEMjcuObgBA8gBAPgBAZgCDaAC_AeoAg_CAgoQABiwAxjWBBhHwgIHECMYJxjqAsICChAjGCcY6gIYiwPCAg8QIxiABBgnGIoFGEYY-QHCAgQQIxgnwgILEAAYgAQYkQIYigXCAgoQABiABBhDGIoFwgIREC4YgAQYsQMY0QMYgwEYxwHCAgoQABiABBgUGIcCwgILEAAYgAQYsQMYgwHCAggQABiABBixA8ICDhAAGIAEGLEDGIMBGIoFmAMRiAYBkAYIkgcEMTEuMqAH-Y8C&sclient=mobile-gws-wiz-serp], and 200MJ/kg more than this for aluminum [https://www.google.com/search?q=what+is+the+embodied+energy+of+aluminum&oq=what+is+the+embodied+energy+of+aluminum&gs_lcrp=EgZjaHJvbWUyBggAEEUYOdIBCDMwNzdqMGo0qAICsAIB&sourceid=chrome-mobile&ie=UTF-8] | *Compare to steel at 20 MJ/kg [https://www.google.com/search?q=what+is+the+embodied+energy+of+steel&sca_esv=9360e7f17122653e&sxsrf=ADLYWILnZrV0U_M4TyJlSYlQDrEA_SXC-g%3A1733191918085&ei=7mhOZ7jfBKOYptQPs_3d0AQ&oq=what+is+the+embodied+energy+of+steel&gs_lp=EhNtb2JpbGUtZ3dzLXdpei1zZXJwGgIYAiIkd2hhdCBpcyB0aGUgZW1ib2RpZWQgZW5lcmd5IG9mIHN0ZWVsMgUQABiABDIFECEYoAEyBRAhGKABMgUQIRigATIFECEYoAEyBhAAGBYYHjILEAAYgAQYhgMYigUyCBAAGIAEGKIESMVQULMVWN9NcAJ4AZABApgBwQGgAdwbqgEEMjcuObgBA8gBAPgBAZgCDaAC_AeoAg_CAgoQABiwAxjWBBhHwgIHECMYJxjqAsICChAjGCcY6gIYiwPCAg8QIxiABBgnGIoFGEYY-QHCAgQQIxgnwgILEAAYgAQYkQIYigXCAgoQABiABBhDGIoFwgIREC4YgAQYsQMY0QMYgwEYxwHCAgoQABiABBgUGIcCwgILEAAYgAQYsQMYgwHCAggQABiABBixA8ICDhAAGIAEGLEDGIMBGIoFmAMRiAYBkAYIkgcEMTEuMqAH-Y8C&sclient=mobile-gws-wiz-serp], and 200MJ/kg more than this for aluminum [https://www.google.com/search?q=what+is+the+embodied+energy+of+aluminum&oq=what+is+the+embodied+energy+of+aluminum&gs_lcrp=EgZjaHJvbWUyBggAEEUYOdIBCDMwNzdqMGo0qAICsAIB&sourceid=chrome-mobile&ie=UTF-8] | ||
| Line 14: | Line 56: | ||
*About 40 kWhr per my of EVA/aluminum x 8 kg = 320 kwhr | *About 40 kWhr per my of EVA/aluminum x 8 kg = 320 kwhr | ||
*'''Total 1010 kWhr''' | *'''Total 1010 kWhr''' | ||
**'''if the low estimate of 165 kilowatt hours above is true and this is 65% of the energy required then we have around 300 kilowatt hours of energy for wafers, and total around 500 kWhr for 1 kW of new PV panels - meaning energy payback of around 1/4 year! | |||
*The case here would be easy for open sector PV production | |||
*365*6kWhr~2100 kWhr/yr | *365*6kWhr~2100 kWhr/yr | ||
*Payback is thus 1/2 yr with only the above. | *Payback is thus 1/2 yr with only the above. | ||
Latest revision as of 06:05, 9 December 2024
Working Doc
Purity Levels
- Metallurgical grade silicon is 98% (one nine?) [1]
- Solar grade silicon is 6-8N [2]
- Microchip silicon (Electronic Grade Silicon) is nine nines pure, whereas power transistor silicon is 6 nines. [3]. Solar grade silicon is same purity as transistor grade - 6 nines. [4].
- 3 nines pure by acid leaching [5]
- Czochralski silicon is 11 nines pure [6]
- Microchip silicon is nine nines pure, whereas power transistor silicon is 6 nines. [7]
- Five nines achieved by electron beam degassing + Chochralski [8]. Interesting in that electron beam degas takes place of Siemens process. Result: cells only 13% good. But can go higher if PERC TopCon etc?
Acid leaching followed by multiple zone refining can reach 9 nines. [9]- 3 nines achievable directly from molten salt electrolysis of silica? [10]. Hairy. [11]
Production Processes
- Siemens process involves chemical vapor deposition of silanes, with metallurgical grade silicon as the feedstock. [12]
- Fluidized bed reactor - similar feedstocks as Siemens, but is continuous, thus capable of lower energy use
- 3 possible processes: upgraded metallurgical, Siemens, Fluidized Bed - [13]
- Upgraded metallurgical silicon requires about 25% less energy than standard (Siemens)
- Fluidized bed reactor method uses 45-80 kWhr/kg of solar grade silicon produced [14]
- Siemens process takes 70-90 kWhr/kg [15]
- What about zone refining directly from metallurgical grade silicon? [16]
- How about UMG by vacuum melting and directional solidification? [17]. Zone refining is a specific type of directional solidification. [18]
- UMG can include zone refining, acid leaching, plasma treatment, vacuum melting, slag treatment. [19]
- Zone refining takes several kw/kg [20]
- Lots is in the research phase. Zone refining, solvent refining, and acid leaching is a winning combo. Promise of lower energy use than Siemens. See summary on p. 33 of this MGS refining thesis. [21]
Energies
- 40 kWhr/kg via UMG route? [22]
Patents
- Fluidized bed reactor, pure silicon granule producer [23]. Continuous version of Siemens process.
Siemens Process
- Si+HCl gets trichlorosilane + numerous impurities reacting with Cl. These are distilled in a column.
Prices 2024
- $6 China. $22 rest of world. [24]
PV Panel Embodied Energy
- And this discusses poly si vs mono si [25]
- embodied energy of 165-375 kWhr/kg [26]
- Good news - 65% of all energy goes into the wafers, as opposed to everything else (glass + All + EVA) according to same link
- Similar for amorphous silicon [27]
- Compare to steel at 20 MJ/kg [28], and 200MJ/kg more than this for aluminum [29]
- How many grams of silicon are needed for 1kW of PV panels? 2 kg [30], based on 2g/W.
- 5% of weight of PV is silicon [31]. 76% is glass, 10% is aluminum, and 10% is EVA.
- Embodied energy of EVA is about 80 mega joules per kilogram [32]
Total for 1kW of PV
- 600 kWhr for 2 kg of silicon
- 3kWhr per kg for glass, or 90 kWhr for 30 kg glass. [33]
- About 40 kWhr per my of EVA/aluminum x 8 kg = 320 kwhr
- Total 1010 kWhr
- if the low estimate of 165 kilowatt hours above is true and this is 65% of the energy required then we have around 300 kilowatt hours of energy for wafers, and total around 500 kWhr for 1 kW of new PV panels - meaning energy payback of around 1/4 year!
- The case here would be easy for open sector PV production
- 365*6kWhr~2100 kWhr/yr
- Payback is thus 1/2 yr with only the above.
- This matches results from Fraunhofer 2021, close enough - .7-1.4 year payback time. [34]
Links
- DIY Glacial Acetic Acid
- Wikipedia says 585 kWhr/m2 of PV panels? [35]