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本文讨论了地球弓激波前内背景电子速度分布函数为平顶形式时的透射离子横场流静电不稳定性.结果表明,在超临界(Alfvén Mach数M_A>3)准垂直激波区(激波法向与行星际磁场之间的夹角75°)情况下,透射离子流产生的静电不稳定性增长率峰值要比电子速度为Maxwell分布时更加显著,并满足动力学性质. 相似文献
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M. Tátrallyay G. Erdős A. Balogh I. Dandouras 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008,41(10):1537-1544
Two orbits were selected in January–February 2006 when the separation between the Cluster spacecraft was large and mirror type magnetic field fluctuations were observed by all spacecraft in different regions of the terrestrial magnetosheath. Minimum variance analysis was applied to find the mirror type fluctuations, and the amplitude of the fluctuations was determined individually. Mirror mode structures are moving along the streamlines frozen in the plasma. A model was developed for the calculation of plasma flowtime from the bow shock to the observation point. The growth rate of the field strength perturbations was estimated by comparing the amplitudes of fluctuations observed simultaneously at distant locations (∼10,000 km) based on the assumption that δB ∼ exp(γt). The obtained growth rate values were about an order of magnitude smaller than those provided by linear models and they decreased in the inner regions of the magnetosheath, indicating some saturation in the growth of the waves when proceeding towards the magnetopause. The results of these two case studies suggest that mirror type fluctuations originate from the compression region downstream of the quasi-perpendicular bow shock, and the growth of the fluctuations cannot be described by linear approximations. 相似文献
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具有初始热变形的转子系统振动响应分析 总被引:1,自引:1,他引:0
航空发动机热起动时的温度分布不均会使转子产生初始热变形,进而引起发动机振动过大,甚至导致起动失败。针对此问题,以航空发动机中的典型转子为对象,根据初始热变形对转子振动的影响建立相应的动力学方程,并通过模态坐标变换分析初始热变形对转子系统振动响应的影响。结果表明,初始热变形相当于对转子作用了附加激励,包括转轴初始弯曲激励、附加不平衡激励和附加陀螺力矩激励,上述激励均与转速同步。其中,附加不平衡激励和附加陀螺力矩激励大小与转速有关,对转子通过各阶临界转速的振动响应均有较大影响;转轴初始弯曲激励大小与转速无关,主要影响低阶临界转速的振动响应。 相似文献
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摘要:为了揭示对转压气机下游转子外伸激波对上游转子泄漏流的影响规律,针对上游转子叶顶间隙分别为0.2、0.5、0.8 mm的对转压气机开展了非定常数值模拟研究。研究发现:受下游转子外伸激波掠扫影响,上游转子尾缘附近压力面会形成弱压缩波,且随上游转子泄漏流增强而逐渐减弱;而该外伸激波在上游转子尾缘附近吸力面,会形成与型线切向相垂直的较强压缩波,且其位置基本不受叶顶间隙大小影响;外伸激波使上游转子尾缘附近吸、压力面压差增大,叶顶泄漏流增强,进而导致其损失增大;随着叶顶间隙增大,上游转子叶尖区弦长前半段压力波动的频率,由通道激波转为叶顶泄漏流主导,且呈现减小的趋势,而弦长后半段压力波动的频率主要由外伸激波主导,且基本不变。 相似文献
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在马赫数Ma=3. 8超声速风洞中.采用PIV(Particle Image Velocimetry,粒子图像测速)技术测量了超声速光学头罩流场的速度分布.PIV技术应用于超声速流场时,对系统的硬件配备、示踪粒子的跟随性以及PIV算法的精度有很高的要求.本文PIV系统选用高精度的同步控制器和高能量激光器;以纳米级粒径的粒子作为示踪粒子,通过斜激波响应实验分析了其在超声速流场中的跟随性;并采用多种高精度速度场算法对粒子图像进行处理.实验结果表明,示踪粒子在超声速流场中有很好的跟随性,采用的高精度速度场算法能够很好地反映超声速光学头罩流场的速度分布. 相似文献
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介绍用于固体火箭发动机推力矢量控制的气体二次喷射实验装置及实验方法;研究了气体二次喷射中喷射位置、喷射角度、喷射孔形状、喷射马赫数、喷射流量等诸多参数对混合流场弓形激波的影响;并对实测的弓形激波半径与激波理论分析方法求得的激波半径进行了比较,二者激波斜率基本一致。 相似文献
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