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A computational study of rapid solidification for ribbon growth on substrate.

机译：快速固化的计算研究，用于带材在基材上的生长。

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Ribbon growth on a substrate (RGS) emerges as a potent technology for producing multi-silicon ribbons that are used for building solar cells at a low cost. One major challenge of RGS is to increase the efficiency of the solar cells built on RGS wafers through better control of the solidification rate of the wafer. In this study, an integrated model is developed that consists of a two-dimensional model of the heat transfer process and a one-dimensional model that predicts the solidification profile during the RGS process. Simulations will be performed with different pulling rates, substrate materials and preheating temperatures to obtain a better understanding of the temperature profile and solidification rates at the substrate and solidification interface surfaces. The information obtained through the modeling work will enable us to identify the effects of important operational parameters and further optimize the growth process.

机译：基板上的碳带生长（RGS）成为一种有效的技术，可用于以低成本生产用于建筑太阳能电池的多晶硅碳带。 RGS的主要挑战之一是通过更好地控制晶片的固化速率来提高在RGS晶片上构建的太阳能电池的效率。在这项研究中，开发了一个集成模型，该模型由传热过程的二维模型和预测RGS过程中凝固过程的一维模型组成。将使用不同的拉速，基材材料和预热温度进行模拟，以更好地了解基材和固化界面表面的温度曲线和固化速率。通过建模工作获得的信息将使我们能够识别重要操作参数的影响，并进一步优化生长过程。

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作者
Smith, Michael James.;
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作者单位

University of Maryland, Baltimore County.;

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授予单位 University of Maryland, Baltimore County.;
学科 Alternative Energy.;Engineering Mechanical.
学位 M.S.
年度 2012
页码 93 p.
总页数 93
原文格式 PDF
正文语种 eng
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A computational study of rapid solidification for ribbon growth on substrate.

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