3 research outputs found

    Optimization of antireflection coating design using pc1d simulation for c − si solar cell application

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    Minimizing the photon losses by depositing an anti-reflection layer can increase the conversion efficiency of the solar cells. In this paper, the impact of anti-reflection coating (ARC) for enhancing the efficiency of silicon solar cells is presented. Initially, the refractive indices and reflectance of various ARC materials were computed numerically using the OPAL2 calculator. After which, the reflectance of SiO2, TiO2, SiNx with different refractive indices (n) were used for analyzing the performance of a silicon solar cells coated with these materials using PC1D simulator. SiNx and TiO2 as single-layer anti-reflection coating (SLARC) yielded a short circuit current density (Jsc ) of 38.4 mA/cm2 and 38.09 mA/cm2 respectively. Highest efficiency of 20.7% was obtained for the SiNx ARC layer with n = 2.15. With Double-layer anti-reflection coating (DLARC), the Jsc improved by ∼0.5 mA/cm2 for SiO2 /SiNx layer and hence the efficiency by 0.3%. Blue loss reduces significantly for the DLARC compared with SLARC and hence increase in Jsc by 1 mA/cm2 is observed. The Jsc values obtained is in good agreement with the reflectance values of the ARC layers. The solar cell with DLARC obtained from the study showed that improved conversion efficiency of 21.1% is obtained. Finally, it is essential to understand that the key parameters identified in this simulation study concerning the DLARC fabrication will make experimental validation faster and cheaper

    The The Ozone treatment for Elimination of toxic waste – An alternate for preservation of goat skins and enhancement of bleaching property of starch

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    In line with the staggering number of about 14 percent of India's GDP relying on the food processing industry. Our area of research aims at exploring the wide spread applications of the use of ozone a chemical compound that has the property of being a strong oxidant along with its potent capabilities of being a disinfecting agent in the food processing industry. Specifically focusing on the implication of the ozonized based processing techniques on the food and animal related processed products which include goat skin and manufacturing of starch. During the phase of the research we compared the impacts, advantages on using Ozone based processing technique over the existing methods like salt curing, and starch manufacturing from tapioca starch involves peeling, washing, rasping, screening, dewatering, drying, pulverization, dry screening and packaging. Ozonised skins kept exposed to atmospheric air were more impervious to microbial activity is in existence. This opens up the likelihood of applying Ozonisation innovation to protect goatskins so as to take out earth unsafe salt curing. And improving the whiteness property of sago starch without creating any harmful by products using Ozonisation based techniques

    Optimization of Antireflection Coating Design Using PC1D Simulation for c − Si Solar Cell Application

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    Minimizing the photon losses by depositing an anti-reflection layer can increase the conversion efficiency of the solar cells. In this paper, the impact of anti-reflection coating (ARC) for enhancing the efficiency of silicon solar cells is presented. Initially, the refractive indices and reflectance of various ARC materials were computed numerically using the OPAL2 calculator. After which, the reflectance of SiO2,TiO2,SiNx with different refractive indices (n) were used for analyzing the performance of a silicon solar cells coated with these materials using PC1D simulator. SiNx and TiO2 as single-layer anti-reflection coating (SLARC) yielded a short circuit current density (Jsc) of 38.4 mA/cm2 and 38.09mA/cm2 respectively. Highest efficiency of 20.7% was obtained for the SiNx ARC layer with n=2.15. With Double-layer anti-reflection coating (DLARC), the Jsc improved by ∼0.5 mA/cm2 for SiO2/SiNx layer and hence the efficiency by 0.3%. Blue loss reduces significantly for the DLARC compared with SLARC and hence increase in Jsc by 1 mA/cm2 is observed. The Jsc values obtained is in good agreement with the reflectance values of the ARC layers. The solar cell with DLARC obtained from the study showed that improved conversion efficiency of 21.1% is obtained. Finally, it is essential to understand that the key parameters identified in this simulation study concerning the DLARC fabrication will make experimental validation faster and cheaper
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