S. Kinnas, Hanseong Lee, Bikash Mishra, Lei He, S. Rhee, S. Balasubramanyam
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引用次数: 1
摘要
本文介绍了用Euler求解器(GBFLOW)和reynolds - average Navier - Stokes求解器(FLUENT)耦合升力面法(MPUF-3A)进行螺旋桨非定常空化流动分析的计算技术,以预测各种类型的吊舱螺旋桨(拉型、推型和双吊舱)的流动和性能。在GBFLOW或FLUENT动量方程中,将时间平均螺旋桨力分布作为源项。分析了粘度对有效尾迹、各螺旋桨性能以及对吊舱和支杆受力的影响,并与实验结果进行了验证。
This paper presents computational techniques which couple a lifting surface method (MPUF-3A) for the unsteady cavitating flow analysis of propellers with an Euler solver (GBFLOW) and a Reynolds-Averaged Navier Stokes Solver (FLUENT) to predict the flow and the performance of various types of podded propellers such as pull, push and twin types. The time-averaged propeller force distributions are considered as source terms in the momentum equations of GBFLOW or FLUENT. The effect of viscosity on the effective wake and on the performance of each propeller, as well as on the forces on the pod and strut are assessed, and the results of the involved methods are validated with those measured in experiments.
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