Raufeisen A, Breuer M, Botsch T, Delgado A (2011)
Publication Type: Conference contribution
Publication year: 2011
Publisher: Springer
Edited Volumes: High Performance Computing in Science and Engineering 2010 - Transactions of the High Performance Computing Center, Stuttgart, HLRS 2010
City/Town: Berlin/Heidelberg
Pages Range: 353-367
Conference Proceedings Title: High Performance Computing in Science and Engineering 2010 - Transactions of the High Performance Computing Center, Stuttgart, HLRS 2010
Event location: Stuttgart
ISBN: 978-3-642-15747-9
DOI: 10.1007/978-3-642-15748-6-27
In the literature, numerical computations of the Czochralski process for crystal growth are conducted using a quasi-steady state assumption for the crystallization neglecting time-dependent effects. In the present work, an algorithm is developed, which allows to calculate the transient behavior of the crystallization interface including the movement of the three-phase boundary and the free surface of the melt. Thus, in conjunction with the computation of the turbulent melt flow and heat transfer, more realistic predictions of the crystal growth can be achieved. Test cases show that with the algorithm, realistic phenomena like crystal diameter increase and decrease during the growth process could be reproduced. © Springer-Verlag Berlin Heidelberg 2011.
APA:
Raufeisen, A., Breuer, M., Botsch, T., & Delgado, A. (2011). Time-dependent three-dimensional simulation of the turbulent flow and heat transfer in czochralski crystal growth including the three-phase boundary movement. In High Performance Computing in Science and Engineering 2010 - Transactions of the High Performance Computing Center, Stuttgart, HLRS 2010 (pp. 353-367). Stuttgart: Berlin/Heidelberg: Springer.
MLA:
Raufeisen, Alexander, et al. "Time-dependent three-dimensional simulation of the turbulent flow and heat transfer in czochralski crystal growth including the three-phase boundary movement." Proceedings of the 13th Annual Results and Review Workshop on High Performance Computing in Science and Engineering, HLRS 2010, Stuttgart Berlin/Heidelberg: Springer, 2011. 353-367.
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