Modeling Nano enabled elements of solar and fuel cell

2009 Innovative Technologies in Intelligent Systems and Industrial Applications Pub Date : 2009-07-25 DOI:10.1109/CITISIA.2009.5224198

Rohit Pathak, Satyadhar Joshi, Pawan Kotak, Salman Ahmed, Virendra Verma

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引用次数: 5

Abstract

We have proposed a unified approach to the modeling and study of developments in the field of Nanotechnology and its application in futuristic Nano-enabled Cells. The necessity of a nonporous membrane has been eminent in recent fuel cells. The need for MEMS based models for porous silicon based membranes based on nano imprints technology has been met by modeling it in SUGAR in MATLAB environment. We have identified and categorized the domains of Nano enabled solar cells and have put forth a proposition for multi scale modeling of Solar cells. Multi scale modeling on HPC (High performance computing) of a Nano enabled solar cell is shown under MCCS (Microsoft compute cluster environment) environment using extreme optimization numerical library is implemented. Distribution and performance analysis of four levels of computation in a multi scale model is implemented with the distribution being carried out from classical semi-conductor to quantum levels as to accurately predict the behavior and properties of the solar cell as per the needs of the engineering of devices.

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模拟太阳能和燃料电池的纳米元件

我们提出了一种统一的方法来建模和研究纳米技术领域的发展及其在未来纳米细胞中的应用。在最近的燃料电池中，无孔膜的必要性已经非常突出。利用MATLAB环境中的SUGAR对基于纳米印迹技术的多孔硅基膜进行建模，满足了MEMS模型的需求。我们对纳米太阳能电池的领域进行了识别和分类，并提出了太阳能电池多尺度建模的建议。在mcs (Microsoft计算集群环境)环境下，利用极限优化数值库实现了纳米太阳能电池高性能计算的多尺度建模。为了根据器件工程的需要准确地预测太阳能电池的行为和性能，对多尺度模型中四个计算层次的分布和性能进行了分析，从经典半导体到量子的分布。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 Innovative Technologies in Intelligent Systems and Industrial Applications

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