腐蚀
粒子(生态学)
机械
动能
材料科学
沉积(地质)
流量(数学)
地质学
岩土工程
物理
地貌学
经典力学
沉积物
海洋学
作者
Nathan D. Libertowski,Gabriel M. Geiger,Jeffrey P. Bons
出处
期刊:Journal of engineering for gas turbines and power
[ASME International]
日期:2020-02-10
卷期号:142 (3)
被引量:7
摘要
Abstract Experiments were performed to study the erosion of deposit structures due to large particle impacts (>5 μm). Cone-shaped dust deposits were created in an oversized (6.35 mm diameter) impingement cooling jet at 811 K with 0–5 μm Arizona road dust (ARD). Subsequently, the deposit cones were eroded with larger particle distributions (5–10, 10–20, 20–40, and 40–80 μm ARD) at various velocities and temperatures. It was found that erosion rate increased with increasing particle size and flow velocity and with decreasing temperature. The dependency on size and velocity occurs through the particle's kinetic energy at impact, while the dependency on temperature is related to the adhesive forces in the deposit structure. Using the experimental data, an empirical erosion model was developed to be added to the Ohio State University (OSU) deposition model. A computational flow simulation combined with mesh morphing is shown to capture key features of the erosion physics.
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