气管支气管树内气流和颗粒运动的大涡模拟

为更精确地描述真实人体呼吸道内的空气流动,明晰颗粒的运动沉积规律,本文从直接医学CT扫描得到的原始数据出发,利用图像辨识技术,重构了一个男性真人气管支气管树前三级的三维几何模型.采用大涡模拟的方法计算了非规则几何曲面结构内的气体流动现象,并在拉格朗日框架下跟踪颗粒的运动规律.数值计算得到了气流场的三维分布,以及颗粒的运动轨迹情况,结果表明现有基于Weibel的对称模型与真实人体的几何结构有较大的差异,而几何结构对流动影响较大;受非对称复杂结构影响,在不同截面的二次气流速度的分布规律不同;分叉后颗粒进入左右支气管的数量有明显的不同.     

基于超临界流体技术制备葡萄糖脂质体的实验研究

脂质体由于其特殊的结构和性能,是一种很有发展潜力的药物载体,在医药和化妆品等行业具有广阔的应用前景。超临界逆向蒸发法是用超临界流体代替有机溶剂制备脂质体的方法,具有对水溶性药物脂质体制备过程简单、包覆率高等特点。以葡萄糖为模型药物,利用该方法制备出了葡萄糖脂质体,并详细考察了不同工艺条件对脂质体粒径和包覆率的影响。结果表明:用超临界逆向蒸发法可成功地制备出最小粒径为290nm、包覆率最高可达41.3%的葡萄糖脂质体。压力、温度和平衡时间对粒径和包覆率都有较大的影响。压力在10~30MPa时,随压力的增加,脂质体粒径显著减小至某一值后,基本趋于稳定,而包覆率逐渐增加,达到25.7%~27.5%,随后包覆率逐渐减小;温度在35~65℃时,随温度的增加粒径显著减小至最小值,然后逐渐增大,而包覆率一直增大,最高可达41.3%;平衡时间在15~45min时,随平衡时间的增加,粒径相对稳定,而包覆率显著增加,超过45min之后,粒径显著增加,包覆率显著下降。     

高考中两种曲线运动的综合问题的分析

圆周运动和（类）平抛运动是高中物理中两种典型的曲线运动;前者为变速曲线运动,后者为匀变速曲线运动．在考题中往往把两种运动综合在一起形成较为复杂运动问题,以下举例分析,以便共同探讨．     

一种数字控制单相全桥逆变电路运动行为分析方法研究

考虑到数字控制单相全桥逆变电路PWM调制方法和滤波器、负载结构的多样性, 以及利用状态转移矩阵对系统运动行为分析方法的局限性. 通过解析表达状态转移矩阵中的元素, 本文提出了一种可以解析描述具有N个状态变量、一个开关周期内M次拓扑 变化的数字控制单相全桥逆变电路(简称N-M数字控制单相全桥逆变电路)系统参数 与运动行为关系的分析方法. 以3-3数字控制单相全桥电压逆变电路为例对上述分析方法进行了验证, 推导出了该三阶电路发生Hopf分岔的解析判别式、稳定范围及Hopf分岔振荡频率的解析表达式, 并通过Simulink仿真及电路实验证明了理论分析的正确性.     

Flow Structures Around Micro-bubbles During Subcooled Nucleate Boiling

The flow structures were investigated around micro bubbles on extremely thin wires during subcooled nucleate boiling.Jet flows emanating from the bubbles were observed visually with the fluid field measurement using high-speed photography and a PIV system.The jet flows induced a strong pumping effect around a bubble.The multi-jet structure was further observed experimentally, indicating the evolution of flow structure around micro bubbles.Numerical simulations explore that the jet flows were induced by a strong Marangoni effect due to high temperature gradients near the wire.The bubble interface with multi-jet structure has abnormal temperature distribution such that the coolest parts were observed at two sides of a bubble extending into the subcooled bulk liquid rather than at the top.Evaporation and condensation on the bubble interface play important roles not only in controlling the intensity of the jet flow,but also in bringing out the multi-jet structure.     

低温气液两相流数值计算

低温工质两相流动在很多场合都存在,研究深冷剂在两相流动时参数的分布有着很重要的作用.文中采用一维均相流模型对液氮循环流动过程进行稳态数值模拟,得到了循环流动过程中液氮含汽率、压力和温度沿管程方向的分布情况,并对由于不同回路条件引起的不同结果进行了分析.     

地球表面水平运动物体偏转推演及判断

本依据科氏力原理,利用数学矢量公式推断地球表面水平运动物体的偏转方向,并依据其对地球表面出现的系列现象给予物理意义上的解释,使得传统的地表水平运动物体偏转方向的判断进一步规范化。     

抛射体运动的飞行路径与抛射角的关系

在忽略空气阻力的情况下,抛射体运动的飞行路径长度与抛射初速度的平方成正比;运用Matlab可比较容易地证明,当抛射角为56.49°时,飞行路径最长.     

A fractal approach to low velocity non-Darcy flow in a low permeability porous medium

In this paper, the mechanism for fluid flow at low velocity in a porous medium is analyzed based on plastic flow of oil in a reservoir and the fractal approach. The analytical expressions for flow rate and velocity of non-Newtonian fluid flow in the low permeability porous medium are derived, and the threshold pressure gradient （TPG） is also obtained. It is notable that the TPG （J） and permeability （K） of the porous medium analytically exhibit the scaling behavior J ~ K-D＇r/（l＋Or）, where DT is the fractal dimension for tortuous capillaries. The fractal characteristics of tortuosity for capillaries should be considered in analysis of non-Darcy flow in a low permeability porous medium. The model predictions of TPG show good agreement with those obtained by the available expression and experimental data. The proposed model may be conducible to a better understanding of the mechanism for nonlinear flow in the low permeability porous medium.     

Influence of angular momentum in axially symmetric potentials with octupole deformation

The chaotic classical single-particle motion in an oblate octupole deformed potential with a nonzero z-component of angular momentum Lz is investigated. The stability analysis of the trajectories shows that with increasing rotation of the system, the unstable negative curvature regions of the effective potential surface decrease, which converts the chaotic motion of the system into a regular one.