In this article, the technology of super-fine grinding based on high pressure microfluidics is studied in three aspects, which are the mechanism of it, the influence of the mico-channel to grinding effect and the testing effect of the equipment.
本课题从高压微射流超细粉碎的作用机理、微孔流道形式对其粉碎效果的影响和高压微射流超细粉碎装置的实验效果三个方面对高压微射流超细粉碎技术进行了研究。
Study on the preparation of zedoary nano-liposomes by micro-jet method;
微射流法制备莪术油纳米脂质体的研究
Numerical Simulation of Micro-jet Array Impingement Cooling;
微射流矩阵冲击冷却数值模拟
The Faver-averaged N - S equations and k - ? model are solved by using the finite volume method , and a numerical emulation is done for the micro-jet actuators in modifying the aerodynamic performance of a cylindrical body .
采用有限体积法求解Faver平均N-S方程,对微射流改变绕流圆柱的气动性能进行数值模拟。
The operation principle and application of microfluidizer,was introduced and also compared the particle size sheared by vacuum emulsifier and microfluidzer was compared.
微射流机以高效能缩小制剂的粒径 ,并以产品的微粒密集均匀分布等优点而广泛用于精细乳化液、分散液和脂质体等产品的生产和实验开发中。
The full N-S equations were solved using Beam-Warming approximate factorization method and a high-order compact-difference scheme for the synthetic flow field of vectoring control of a primary jet with the adjacent synthetic jets.
采用改进的Beam-Warming近似因式分解法求解二维、粘性、非定常、可压全N-S方程,对双微射流作动器定向控制主流的合成流场进行数值模拟。
We now explore theoretically as a first step the effectiveness of using a single micro jet actuator to vector primary flow.
采用 Beam- Warming近似因式分解法求解二维、粘性、非定常、可压 N- S方程 ,对单微射流作动器定向控制主流的合成流场进行数值模拟。
Numerical study on the external flow field of micro jet actuator;
微射流作动器三维外流场数值模拟
Although the method of Rizzetta et al [4] can be applied to perform numerical simulation of external flow field of micro jet actuator, it leaves out many essential details.
计算结果揭示了微射流的特点及其产生、发展与耗散的过程。
This article introduced the operation principle and configuration of the micro jet actuator briefly, then the two dimensional, time dependent, incompressible as well as viscous ejection flow field was numerical analyzed applying the vorticity stream function method.
本文简要介绍了微射流作动器的工作原理及结构形状 ,应用涡量 流函数法对二维、粘性、非定常、不可压微射流流场进行了数值分析。
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