| 1. | Ultrasound - microbubble - mediated target therapy for renal disease
超声微泡介导靶向治疗在肾脏病中的作用 |
| 2. | Numerical simulation of upward microbubble - laden turbulent channel flow
竖直上升通道内微气泡湍流流动的数值模拟 |
| 3. | The effect of ultrasound microbubble on permeability of rat prostate
超声辐照微泡对大鼠前列腺增生组织通透性的影响 |
| 4. | Separating principle and parameter controlling for cyclonic - static microbubble flotation column
静态微泡浮选柱的分选原理及参数控制 |
| 5. | The efficient cyclonic microbubble flotation column technology recovering clean coal from slime
从煤泥中回收精煤的高效旋流微泡浮选柱技术 |
| 6. | This paper introduces mechanism , research methods and main results about microbubble dray reduction
该文介绍了微气泡降阻机理、研究方法和重要结论。 |
| 7. | In this paper , numerical investigation into the friction reduction by microbubble for high - speed ships is performed
本文工作主要是通过计算流体力学方法对船舶微气泡减阻进行数值模拟。 |
| 8. | As for the device producing the microbubble , considering the utility and innovation , the porous material made from silicon is adopted
对于微气泡产生装置,考虑到实用及创新等因素,采用了多孔硅材料板。 |
| 9. | As the moving particle in the turbulence boundary layer , the resistance on microbubble from water may be fallen inside the scope of the stokes law
作为湍流边界层中运动的粒子,微气泡受到水的阻力可能会在stokes阻力范围内。 |
| 10. | Coinciding conclusion is obtained through these methods , and this provides strong background for further engineering application of microbubble drag reduction
这些研究得到了较为一致的结论,为未来微气泡降阻的工程应用研究奠定基础。 |
