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相关概念视频

Laminar and Turbulent Flow01:07

Laminar and Turbulent Flow

Fluid dynamics is the study of fluids in motion. Velocity vectors are often used to illustrate fluid motion in applications like meteorology. For example, wind—the fluid motion of air in the atmosphere—can be represented by vectors indicating the speed and direction of the wind at any given point on a map. Another method for representing fluid motion is a streamline. A streamline represents the path of a small volume of fluid as it flows. When the flow pattern changes with time, the streamlines...
Excess Pressure Inside a Drop and a Bubble01:13

Excess Pressure Inside a Drop and a Bubble

The shape of a small drop of liquid can be considered spherical, neglecting the effect of gravity. This drop can further be considered as two equal hemispherical drops put together due to surface tension. The forces acting on the spherical drop are due to the pressure of the liquid inside the drop, the pressure due to air outside the drop, and the force due to the surface tension acting on the two hemispherical drops.
Steady Flow of a Fluid Stream01:27

Steady Flow of a Fluid Stream

Consider a control volume, such as a pipe with solid boundaries, through which fluid flows and changes direction due to the impulse exerted by the resulting force from the pipe walls. In steady flow, the mass of fluid entering the control volume at a given time, t, with velocity v1, is equal to the mass leaving after infinitesimal time dt, with velocity v2.
During this process, the momentum of the fluid within the control volume remains constant over the time interval dt. By applying the...
Surface Tension of Fluid01:22

Surface Tension of Fluid

Surface tension is a fundamental property of fluids, occurring at the boundary between a liquid and a gas or between two immiscible liquids. This phenomenon arises from the cohesive forces between molecules at the fluid's surface, creating an effect similar to a stretched elastic membrane. Inside each fluid, molecules are equally attracted in all directions by neighboring molecules, but surface molecules experience a net inward force, resulting in surface tension.
Surface tension varies with...
Control Volume and System Representations01:16

Control Volume and System Representations

Two key frameworks are employed to analyze mass, energy, and momentum transfer: the control volume approach and the system approach. These frameworks offer different perspectives, depending on whether the focus is on a specific region in space (control volume approach) or a defined mass of fluid (system approach).
The control volume approach considers a stationary region in space through which fluid flows. This region is bounded by a control surface.  For instance, in the case of water flowing...
Couette Flow01:22

Couette Flow

Couette flow represents the flow of fluid between two parallel plates, with one plate fixed and the other moving with a constant velocity. This configuration allows for a simplified analysis using the Navier-Stokes equations, which govern fluid motion under conditions of viscosity and incompressibility. For Couette flow, the assumptions include a steady, laminar, incompressible flow with a zero-pressure gradient in the flow direction. This flow type is beneficial for understanding shear-driven...

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相关实验视频

Updated: Jun 25, 2026

Capillary-based Centrifugal Microfluidic Device for Size-controllable Formation of Monodisperse Microdroplets
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滴滴微流体学:从生成到操纵

Nan Xiang1, Lin Jiang1, Zhonghua Ni1

  • 1School of Mechanical Engineering, and Jiangsu Key Laboratory for Design and Manufacturing of Precision Medicine Equipment, Southeast University, Nanjing 211189, China.

Micromachines
|December 31, 2025
PubMed
概括

微流体精确控制流体流动在微小的道,用于先进的应用. 这项技术在最小的空间内提供高度可重现的结果.

科学领域:

  • 生物技术是生物技术.
  • 纳米技术 纳米技术
  • 化学工程是化学工程的重要组成部分.

背景情况:

  • 微流体学涉及微尺度通道中的流体操纵.
  • 它可以在狭窄的空间中精确控制流体动力学.
  • 这种技术对于小型化系统和先进研究至关重要.

研究的目的:

  • 突出微流体在科学研究中的能力.
  • 为了证明流体控制的精度和可重复性.
  • 展示各种科学领域的应用.

主要方法:

  • 使用微尺度通道进行流体操纵.
  • 实施精确流量控制的先进技术.
  • 在实验设置中确保高可重现性.

主要成果:

  • 实现了高度精确的流体控制.
  • 在微观环境中证明了可重复的结果.
  • 验证了微流体技术的有效性.

结论:

  • 微流体是一个多功能和强大的工具.

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  • 它为小型化系统提供了显著的优势.
  • 该技术促进了跨多个科学领域的进步.