Abstract Extensive experimental studies and associated reviews have been conducted to better understand the aerodynamic impact of iced lifting surfaces based on measurements. This review is a computational compliment to these previous studies to understand how well we can predict these aerodynamics. In particular, we focus on classifying three-dimensional computational fluid dynamic (CFD) studies that have analyzed the aerodynamic impact of ice accretion on lifting surface geometries over the past three decades. The classification considers and discusses: airfoil/wing geometry, ice shape, flow conditions, meshing type/technique, numerical schemes, turbulence model, and prediction accuracy (via experimental validation). The review culminates in an informed commentary on the current gaps of knowledge present with regards to predicting aerodynamics on iced lifting surfaces, and recommends strategies for the research community to use to help address these issues.

中文翻译：

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结冰升力面气动分析计算方法综述

摘要 为了更好地了解结冰升力面的空气动力学影响，已经进行了广泛的实验研究和相关审查。这篇综述是对这些先前研究的计算补充，以了解我们可以如何预测这些空气动力学。特别是，我们专注于对三维计算流体动力学 (CFD) 研究进行分类，这些研究分析了过去三十年积冰对升力表面几何形状的空气动力学影响。分类考虑和讨论：翼型/机翼几何形状、冰形状、流动条件、网格类型/技术、数值方案、湍流模型和预测精度（通过实验验证）。