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在高速水洞中运用人工通气方法进行了航行体模型超空泡形态特性的系列实验研究.获得了不同通气流量、不同空化数和不同弗鲁德数下的空泡形态,建立了以弗鲁德数为参数的空泡几何特征参数与空化数的对应关系、空化数与通气流量系数之间的对应关系.验证了空化数是决定空泡尺度的主要无因次参数,通过改变通气流量可以有效地调控空化数,进而达到控制空泡形态的目的.文中同时给出了通气流量系数的实验曲线拟合公式,并与国外的相关实验和公式进行了比较,两者基本一致.所得结论对进一步的水下超高速航行体空泡形态控制技术研究具有参考价值. 相似文献
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基于线性稳定性理论,建立了描述超空化条件下液体射流热稳定性的数学模型,并对数学模型及其求解方法进行了验证;在此基础上,对超空化条件下液体射流与周围气体间的温差对射流稳定性的影响进行了研究。研究结果表明,液体射流与周围气体间存在温差时,射流稳定性变差,扰动波波数范围拓宽,且拓宽的程度随温差的增加有明显加大的趋势;温度扰动对射流稳定性的影响与扰动模式关系不大;温度扰动会在一定程度上削弱超空化对射流稳定性的作用,并有可能完全抑制超空化对扰动波最大波数的作用,只有当超空化达到一定程度后,才能克服温度扰动的抑制作用,使扰动波最大波数变大。 相似文献
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采用高速全流场显示技术和DPIV对空化水翼近壁处的空化云流动形态和运动机理进行了讨论.结果表明:绕Hydronautics翼型的空化云运动是一个准周期性过程:稳定空泡团初生在翼型前部,向翼型后部发展布满整个翼面,在翼型后缘出现汽泡团旋涡,伴随反向运动,最终向下游脱落.当前条件下空泡团旋涡脱落周期约为74 ms.空化区与主流区的交界面上存在较大的速度梯度,一组对涡出现在翼型尾部处交界面上.此外,采用以空泡为示踪粒子的DPIV能够对空化流动流速分布进行有效测量. 相似文献
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An experimental study was conducted to investigate the water entry phenomenon. A facility was designed to carry out the tests
with the entry velocities of around 352 m/s. Visualization, pressure measurement, velocity measurement and underwater impact
test were performed to investigate the hydroballistic behavior of the underwater moving body, the underwater flow field, the
supercavitation, etc.. This study shows that the motion of a high-speed underwater body is strongly three-dimensional and
chaotic. Furthermore, it is found that the distribution of the trajectory deflection of the underwater projectile depends
on the depth of water. It is also found by measuring the deformation on a witness plate submerged in water, that the impact
energy of an underwater projectile is reduced as it penetrates deeper into water.
The project supported by Japan Society for the Promotion of Science under a Grant-in-Aid for Scientific Research (C) (Grant
No. 12650162) 相似文献
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基于线性稳定性理论,建立了描述同轴旋转可压缩流动中超空化条件下液体射流稳定性的数学模型,并对数学模型及其求解方法进行了验证;在此基础上,对模型中考虑的射流及气体可压缩性、气体同轴旋转以及超空化等因素对射流稳定性的影响进行了分析. 分析结果表明,模型中考虑射流及气体的可压缩性后,与不考虑可压缩性相比,计算得到的射流稳定性明显变差,最小液滴直径减小,分裂液滴直径变化范围变宽,且小液滴数量增多. 气体的同轴旋转在轴对称与非轴对称扰动下对射流稳定性的影响完全相反;轴对称扰动时,气体旋转使射流稳定性增强,而非轴对称扰动时则正好相反;气体旋转有可能导致影响射流稳定性的扰动模式发生根本性变化. 超空化使射流稳定性变差;超空化程度较弱时,超空化使分裂液滴最小直径减小,分裂液滴直径变化范围增大;而超空化达到一定程度后,进一步提高超空化程度,分裂液滴最小直径几乎保持不变. 相似文献
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V. D. Kubenko 《International Applied Mechanics》2006,42(6):636-654
An approach is developed to the investigation of the shock interaction between a long thin cylindrical body and a cylindrical
cavity in an infinite compressible perfect liquid. This process accompanies the supercavitation of the body. Three typical
cases of cross-sectional dimensions of the body and the cavity are examined. For each case, a mixed nonstationary boundary-value
problem with an unknown moving boundary is formulated. The unknown quantities are expanded into Fourier series. An auxiliary
problem is solved using the Laplace transform to establish the relationship between the pressure and the velocity on the cavity
surface. As a result, the problem is reduced to an infinite system of Volterra equations of the second kind solved simultaneously
with the equation of transverse motion and the equation of the contact boundary. An asymptotic solution valid at the initial
stage of interaction is obtained for all the three cases, and a numerical solution is found for the most typical case
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Translated from Prikladnaya Mekhanika, Vol. 42, No. 6, pp. 32–53, June 2006. 相似文献