瞬态低温两相流晶格玻尔兹曼模型的验证

T. Traudt, S. Schlechtriem
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引用次数: 3

摘要

在火箭发动机进气系统瞬态低温两相流数值模拟中,采用范德华气体的热晶格-玻尔兹曼模型,验证了该模型对特定问题的适用性。选择了三个测试用例来证明该模型能够捕获底层物理。不可压缩流动的整体正确表现应该由盖子驱动的腔体来证明。模型处理激波和超音速流动的能力在激波管配置中得到了体现。选择最后一个测试案例是为了显示在加热表面形成单个蒸汽泡的瞬时蒸发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Validation of a Lattice Boltzmann Model for Transient Cryogenic Two-Phase Flow
A thermal lattice-Boltzmann model of a van der Waals gas was used to check its applicability to specific challenges in the numerical simulation of transient cryogenic two-phase flow in rocket engine feed systems. Three test cases were chosen to prove the model is capable of capturing the underlying physics. Overall correct representation of incompressible flow should be demonstrated by a lid-driven cavity. The capability of the model to handle shocks and supersonic flow is shown in a shock tube configuration. The last test case was chosen in order to show instantaneous evaporation by the formation of a single vapour bubble at a heated surface.
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