Impact of multi-busbar front grid patterns on the performance of industrial type c-Si solar cell

Impact of multi-busbar front grid patterns on the performance of industrial type c-Si solar cell

•Theoretical calculations (optimization) are carried out for the total front contact losses (viz. optical and electrical) of commercially available patterns solar cell.•The levelized cost of energy (LCOE) due to Silver (Ag) paste has also been estimated for production of 10 MW power.•The effect of i...

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Veröffentlicht in:Solar energy 2022-04, Vol.236, p.790-801
Hauptverfasser: Panda, T., Sadhukhan, S., Acharyya, S., Banerjee, P, Nandi, A., Bose, S., Mondal, N., Das, G., Maity, S., Chaudhuri, P., Saha, H.
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Sprache:eng
Schlagworte:
Busbars
Current carriers
Design
Design optimization
Design parameters
Electric contacts
Electric power loss
EM field
Front grid
Industrial production
LCOE
Life span
Photovoltaic cells
Shading
Silver
Solar cell
Solar cells
Solar energy
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container_end_page 801
container_issue
container_start_page 790
container_title Solar energy
container_volume 236
creator Panda, T.
Sadhukhan, S.
Acharyya, S.
Banerjee, P
Nandi, A.
Bose, S.
Mondal, N.
Das, G.
Maity, S.
Chaudhuri, P.
Saha, H.
description •Theoretical calculations (optimization) are carried out for the total front contact losses (viz. optical and electrical) of commercially available patterns solar cell.•The levelized cost of energy (LCOE) due to Silver (Ag) paste has also been estimated for production of 10 MW power.•The effect of increasing number of busbars on solar cell performance is analyzed here. The EM field distribution due to incident photon flux is also shown here using COMSOL Multiphysics simulation software. Solar cell performance is highly dependent upon the front contact grid design for minimizing the power losses due to shading (optical loss) and for proper collection of the photo-generated charge carriers (electrical loss). In this paper, theoretical calculations (optimization) have been carried out for the total power losses (viz. optical and electrical) due to different front grid multi-busbar patterns similar to the ones currently used in industrial production. Busbar width and finger spacing, the two important design parameters of solar cell with standard busbar structure, are optimized for multi busbar systems. Role of interlinks between the fingers to reduce the power loss has also been studied. The effect of each optimized grid design on the component in the levelized cost of electricity (LCOE) due to Silver (Ag) requirement has been estimated for a 10 MW power system with a 25 years lifespan. The study of EM field distribution due to incident photon flux shows that increasing the number of busbars can generate carriers within the shaded areas under the busbars.
doi_str_mv 10.1016/j.solener.2022.03.051
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The EM field distribution due to incident photon flux is also shown here using COMSOL Multiphysics simulation software. Solar cell performance is highly dependent upon the front contact grid design for minimizing the power losses due to shading (optical loss) and for proper collection of the photo-generated charge carriers (electrical loss). In this paper, theoretical calculations (optimization) have been carried out for the total power losses (viz. optical and electrical) due to different front grid multi-busbar patterns similar to the ones currently used in industrial production. Busbar width and finger spacing, the two important design parameters of solar cell with standard busbar structure, are optimized for multi busbar systems. Role of interlinks between the fingers to reduce the power loss has also been studied. 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The EM field distribution due to incident photon flux is also shown here using COMSOL Multiphysics simulation software. Solar cell performance is highly dependent upon the front contact grid design for minimizing the power losses due to shading (optical loss) and for proper collection of the photo-generated charge carriers (electrical loss). In this paper, theoretical calculations (optimization) have been carried out for the total power losses (viz. optical and electrical) due to different front grid multi-busbar patterns similar to the ones currently used in industrial production. Busbar width and finger spacing, the two important design parameters of solar cell with standard busbar structure, are optimized for multi busbar systems. Role of interlinks between the fingers to reduce the power loss has also been studied. The effect of each optimized grid design on the component in the levelized cost of electricity (LCOE) due to Silver (Ag) requirement has been estimated for a 10 MW power system with a 25 years lifespan. 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subjects Busbars
Current carriers
Design
Design optimization
Design parameters
Electric contacts
Electric power loss
EM field
Front grid
Industrial production
LCOE
Life span
Photovoltaic cells
Shading
Silver
Solar cell
Solar cells
Solar energy
title Impact of multi-busbar front grid patterns on the performance of industrial type c-Si solar cell
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