首页> 美国政府科技报告 >VELOCITY LAG OF SOLID PARTICLES IN OSCILLATING GASES AND IN GASES PASSING THROUGH NORMAL SHOCK WAVES

【24h】

VELOCITY LAG OF SOLID PARTICLES IN OSCILLATING GASES AND IN GASES PASSING THROUGH NORMAL SHOCK WAVES

机译：通过正常冲击波在振荡气体和气体中的固体颗粒的速度滞后

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

The velocity lag of micrometer size spherical particles is theoretically determined for gas-particle mixtures passing through a stationary normal shock wave and also for particles embedded in an oscillating gas flow. The particle sizes (0.125 to 2um rad) and densities (0. 5 to 3 g/cm3) chosen are those considered important for laser Doppler velocimeter (LDV) applications. The governing equations for each flow system are formulated. The deviation from Stokes flow caused by inertial, compressibility, and rarefaction effects is accounted for in both flow systems by use of an empirical drag coefficient. Graphical results are presented which characterize particle tracking as a function of system parameters.

著录项

作者
Barry R. Maxwell; Richard G. Seashbltz;
展开▼
作者单位

展开▼
年度 1974
页码 1-29
总页数 29
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Laser-Doppler velocimeter - Particle motion - Multiphase flow - Particle tracking;

机译：激光多普勒测速仪 - 粒子运动 - 多相流 - 粒子跟踪;

相似文献

外文文献
中文文献
专利

1. Structure of velocity distributions in shock waves in granular gases with extension to molecular gases [J] . A. Vilquin, J. F. Boudet, H. Kellay Physical review, E . 2016,第2aPta2期

机译：颗粒气体冲击波速度分布的结构与分子气体延伸
2. Techniques for Conducting Shock Tube Experiments with Mixtures of Ultrafine Solid Particles and Gases [J] . Review of Scientific Instruments . 1967,第8期

机译：用超细固体颗粒和气体的混合物进行激波管实验的技术
3. Measurements of charge state distributions of 0.74 and span class="aps-inline-formula"math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"mrowmn1.4/mnmtext??/mtextmiMeV/mimo//momi mathvariant="normal"u/mi/mrow/math/span heavy ions passing through dilute gases [J] . P. Scharrer, Ch.?E. Düllmann, W. Barth, Physical Review. Accelerators and Beams . 2017,第4期

机译：0.74和 class =“ aps-inline-formula”> $1.4??MeV/u重离子穿过稀薄气体$
4. RADIATION OBSERVATION OF HYPERVELOCITY SHOCK WAVES IN GASES [C] . H. Honma, K. Maeno, T. Morioka, Impact Engineering and Application . 2001

机译：气体中超高速冲击波的辐射观测
5. Shock waves in nonequilibrium gases and plasmas. [D] . Hilbun, William Marvin. 1997

机译：非平衡气体和等离子体中的冲击波。
6. Matter-Wave–Optical-Wave Mixing-Induced Transparency and a Nonhyperbolic Matter-Wave Quasisoliton in Quantum Gases [O] . Yan Li, Chengjie Zhu, W. R. Garrett, -1

机译：量子气体中的物质波-光波混合引起的透明度和非双曲物质波拟孤子
7. The structure of strong shock waves using the Fokker-Planck model (Shock wave structure in monatomic gases, using Fokker-Planck model for particle collisions and Mott-Smith distribution for shock front) [O] . Viswanathan KS, Dwarakanath GS, Shanbhag VV 1971

机译：使用Fokker-Planck模型的强冲击波结构（单原子气体中的冲击波结构，使用Fokker-Planck模型进行粒子碰撞，使用Mott-Smith分布进行激波前沿）

VELOCITY LAG OF SOLID PARTICLES IN OSCILLATING GASES AND IN GASES PASSING THROUGH NORMAL SHOCK WAVES

摘要

著录项

相似文献

相关主题

期刊订阅