Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon

Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon

Silicon as a raw material for solar cells can be produced by numerous methods. The carbothermic reduction of silica using electric arc furnace is the most widely used process in silicon industry. This paper presents a new approach to produce solar grade silicon using microwave furnace. Pellets of di...

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Main Authors: Cherif Fillali, Ahmed Ilyes Baba, Abderrahmane Abdelkader, Hamzaoui Saad
Format: Article
Language:English
Published: Sciendo 2019-03-01
Series:Materials Science-Poland
Subjects:
microwave furnace
carbon
silica
solar grade silicon
solar cells
Online Access:https://doi.org/10.2478/msp-2019-0014
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spelling doaj-f147b05b33df4f579dc31938e7bd7eda2021-09-06T19:22:35ZengSciendoMaterials Science-Poland2083-134X2019-03-0137112212610.2478/msp-2019-0014msp-2019-0014Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade siliconCherif Fillali0Ahmed Ilyes Baba1Abderrahmane Abdelkader2Hamzaoui Saad3Département de Technologie des Matériaux, Faculté de physique, Université des Sciences et 0de la Technologie d’Oran Mohamed Boudiaf, BP 1505 Oran (31000), AlgérieDépartement de Physique, Faculté Des Sciences, Université Saad Dahlab Blida1, BP 270 Blida (09000), AlgérieLaboratoire de Microscopie Electronique et Sciences des Matériaux, Université des Sciences et de la Technologie d’Oran Mohamed Boudiaf, BP 1505 Oran (31000), AlgérieDépartement de Technologie des Matériaux, Faculté de physique, Université des Sciences et 0de la Technologie d’Oran Mohamed Boudiaf, BP 1505 Oran (31000), AlgérieSilicon as a raw material for solar cells can be produced by numerous methods. The carbothermic reduction of silica using electric arc furnace is the most widely used process in silicon industry. This paper presents a new approach to produce solar grade silicon using microwave furnace. Pellets of different sizes were prepared from a mixture of silica and carbon using water and polyvinyl alcohol as binder agents. Raman spectra indicated a peak at about 515 cm−1 attributed to silicon in the pellets prepared with polyvinyl alcohol, and peaks at about 523 cm−1 and 794 cm−1 attributed to silicon and silicon carbide, in the pellets prepared with water. The pellet size affects the absorption of microwave energy emitted from the magnetrons. Polyvinyl alcohol as a binder agent is promising for the production of silicon using microwave furnace.https://doi.org/10.2478/msp-2019-0014microwave furnacecarbonsilicasolar grade siliconsolar cells
collection DOAJ
language English
format Article
sources DOAJ
author Cherif Fillali
Ahmed Ilyes Baba
Abderrahmane Abdelkader
Hamzaoui Saad
spellingShingle Cherif Fillali
Ahmed Ilyes Baba
Abderrahmane Abdelkader
Hamzaoui Saad
Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
Materials Science-Poland
microwave furnace
carbon
silica
solar grade silicon
solar cells
author_facet Cherif Fillali
Ahmed Ilyes Baba
Abderrahmane Abdelkader
Hamzaoui Saad
author_sort Cherif Fillali
title Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
title_short Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
title_full Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
title_fullStr Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
title_full_unstemmed Effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
title_sort effect of pellet size and additive on silica carbothermic reduction in microwave furnace for solar grade silicon
publisher Sciendo
series Materials Science-Poland
issn 2083-134X
publishDate 2019-03-01
description Silicon as a raw material for solar cells can be produced by numerous methods. The carbothermic reduction of silica using electric arc furnace is the most widely used process in silicon industry. This paper presents a new approach to produce solar grade silicon using microwave furnace. Pellets of different sizes were prepared from a mixture of silica and carbon using water and polyvinyl alcohol as binder agents. Raman spectra indicated a peak at about 515 cm−1 attributed to silicon in the pellets prepared with polyvinyl alcohol, and peaks at about 523 cm−1 and 794 cm−1 attributed to silicon and silicon carbide, in the pellets prepared with water. The pellet size affects the absorption of microwave energy emitted from the magnetrons. Polyvinyl alcohol as a binder agent is promising for the production of silicon using microwave furnace.
topic microwave furnace
carbon
silica
solar grade silicon
solar cells
url https://doi.org/10.2478/msp-2019-0014
work_keys_str_mv AT cheriffillali effectofpelletsizeandadditiveonsilicacarbothermicreductioninmicrowavefurnaceforsolargradesilicon
AT ahmedilyesbaba effectofpelletsizeandadditiveonsilicacarbothermicreductioninmicrowavefurnaceforsolargradesilicon
AT abderrahmaneabdelkader effectofpelletsizeandadditiveonsilicacarbothermicreductioninmicrowavefurnaceforsolargradesilicon
AT hamzaouisaad effectofpelletsizeandadditiveonsilicacarbothermicreductioninmicrowavefurnaceforsolargradesilicon
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