| 1. | Effects of the resin flow on the bubble moving behavior 树脂流动对气泡运动特性的影响 |
| 2. | Movement of gas bubbles in molds with hybrid magnetic fields 组合式结晶器内的气泡运动 |
| 3. | Simulation of the motion of three - dimensional underwater explosion bubble using simple green function method 函数法模拟三维水下爆炸气泡运动 |
| 4. | Experimental verification of relationship between bubble motion and shock vibration of ship equipment 气泡运动与舰船设备冲击振动关系的试验验证 |
| 5. | A numerical simulation on effects of vertical channel wide on deformation and heat transfer of a rising gas bubble 竖直流道宽度对气泡运动行为影响的数值模拟 |
| 6. | For non - overlap bubble case , this paper brings forward a piv algorithm to reach bubble velocity and bubble size 对于气泡间基本不重叠的情况,本文提出了一种p丁v算法,得到了精确的气泡运动速度。 |
| 7. | Thus , it is essential to know the movement behavior in resins in order to reduce voids and control porosity content effectively 本文借助图像跟踪和数码采集照相系统,研究了气泡体积、树脂粘度、外压、树脂种类和树脂流动状态对单个气泡运动规律的影响。 |
| 8. | And also we study the bubble flow behavior of the bubbling fluidized bed . the single bubble and continuous bubble formation , rise , break and coalesce characteristics are studied separately and compared with the experimental data . it shows good consistency 随后研究了鼓泡床内的气泡运动变化规律,分别模拟了单个气泡和连续气泡的生成、生长、破裂以及合并等的行为特性并且和实验数据进行了对照,取得了较好的结果。 |
| 9. | By employing cole ' s classical theory of bubble dynamics , the motion of bubble produced by the underwater explosion and the corresponding bubble pulsating pressure are calculated . a profile function of the shock wave and its parameters are determined according to the principle of wave profile similitude and the equality of impulses . finally an analytic formula is derived to simulate the whole time history of the pressure from the front shock wave to the bubble pulsation , representing the fluid loadings of the underwater explosion 木文首先应用库尔的经典水下爆炸气泡运动理论计算出气泡的运动和脉动的压力波形,再依据波形相似的原则寻找波形模拟函数,用冲量相等的原则确定波形参数,得出了从冲击波到气泡脉动压力整个过程对水下爆炸载荷进行模拟的解析公式。 |
| 10. | Based on simulation results which were satisfied , the effect of bubble diameter on entrainment concentration forcast result was analyzed . the bubble moving rule was found which includs the bubble is escaping upwards along the way , the diameter of the bubble is bigger , the velocity upwards is larger and the bladder remaining near channel bottom is smaller . to make best use of the function of the aerator , the demands of enough air entrainment quantity and suitable air bubble diameter are needed to be satisfied 根据计算结果,对水气两相流中气泡尺寸对掺气浓度预测结果的影响进行了分析,得到沿程气泡不断上逸,气泡粒径越大,其上逸速度越大,则留在渠底附近的气泡越少的气泡运动规律,提出了掺气槽的设计,除满足掺气量外还应满足掺气粒径要求的工程建议。 |