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Journal of Zhejiang University SCIENCE A

ISSN 1673-565X(Print), 1862-1775(Online), Monthly

Distribution law analysis and calculating method for windage power in a geotechnical centrifuge

Abstract: Temperature rise caused by windage power is a major limitation to the large-scale process of geotechnical centrifuges. However, there is no consensus on how to identify the key parts (parts with high windage power consumption) and parameters (the velocity coefficient α and windage coefficient Ci), and the influence of idle power is often neglected in methods for calculating windage power. To address these issues, a Centrifugal Hypergravity and Interdisciplinary Experiment Facility (CHIEF) scaled model device was constructed, and the windage power was measured. Then, a computational fluid dynamics (CFD) model of the device was established and validated by experimental results. Simulation results were analyzed to quantify the proportion of the windage power in different parts of the device and summarize the variation law of key parameters. Finally, a novel windage power calculation equation was developed based on the elimination of the influence of the idle power. Results show that the role of the rotating arm cannot be ignored in the selection of key parts. The velocity coefficient and windage coefficient are a function of the device geometry and size, and are independent of the angular velocity. The windage power is proportional to the cube of the angular velocity after eliminating the effect of idle power.

Key words: Geotechnical centrifuge; Windage power; Key parts and parameters; Centrifugal Hypergravity and Interdisciplinary Experiment Facility (CHIEF); Idle power

Chinese Summary  <442> 土工离心机风阻功率分布规律分析及计算方法研究

作者:郑传祥1,戴煜宸1,林娇1,蒋建群1,卢锦杰1,王振宇1,颜加明2
机构:1浙江大学,能源工程学院,中国杭州,310027;2华东勘测设计研究院,中国杭州,300450
目的:风阻功率引起的温升是土工离心机大型化过程中的一个主要限制因素。本文旨在探究土工离心机内不同区域风阻功率的分布规律,并得到一种可以更为准确地计算风阻功率的方法,以期为大型土工离心机的温控设计提供理论支撑。
创新点:1.通过误差传递分析和排除设备的固有功率,获得了高可靠性的风阻功率实验数据;2.提出了新的风阻功率计算公式,明确了速度系数α和阻力系数Ci的影响因素。
方法:1.通过建造离心式超重力及跨学科实验设施(CHIEF)的缩比模型实验装置,准确测量设备的风阻功率,并用实验数据标定对应的数值模型;2.通过对仿真结果的分析,量化土工离心机内不同区域风阻功率的占比(表3和4,图7),从而确定影响风阻功率的关键区域;3.通过对关键区域关键参数(αCi)变化规律的探究(图9),确定关键参数的影响因素;4.根据关键参数的变化规律,推导出风阻功率的计算公式;5.通过对固有功率的分析,提出总功率的函数形式,并通过对已有土工离心机总功率的拟合,验证函数形式的正确性。
结论:1.采用间接测量方法获得风阻功率时,需要评估其传递误差;2.吊篮和转臂上风阻功率的占比分别为72%和28%,表明吊篮是关键部件;3.速度系数和风阻系数与设备的几何尺寸有关,几乎与角速度无关;4.消除固有功率的影响后,风阻功率与角速度的三次方成正比。

关键词组:土工离心机;风阻功率;关键部件和参数;CHIEF;固有功率


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DOI:

10.1631/jzus.A2300288

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On-line Access:

2024-12-06

Received:

2023-06-27

Revision Accepted:

2024-02-02

Crosschecked:

2024-12-06

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