| 1. | 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 |
| 2. | Theoretical analysis on the friction resistance of a flat plate by micro - bubbles
微气泡对平板摩擦阻力影响的分析 |
| 3. | Numerical simulation of the friction resistance of a flat plate by micro - bubbles
微气泡减少平板摩擦阻力的数值模拟 |
| 4. | It works in conjunction with a foam that contains billions of tiny bubbles
它与一种含有几十亿个微气泡的泡沫合并使用。 |
| 5. | In this article , the author firstly analyzed the mechanism of reducing the friction resistance
本文首先对微气泡减阻机理进行了理论分析。 |
| 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. | Micro balloon actuator array for aerodynamic control of delta wing has been explored in this paper
本文就以用于三角翼气动控制的微气泡致动器阵列为对象展开研究。 |
| 8. | 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。 |
| 9. | Accounting for the impact of bubbles on the turbulence , the k - e model1581 modified with the presence of microbubbles is employed
考虑到气泡对湍流的作用,文中对湍流模型进行了微气泡修正。 |
| 10. | 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。 |
