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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...
Accelerating Fluids01:17

Accelerating Fluids

When a fluid is in constant acceleration, the pressure and buoyant force equations are modified. Suppose a beaker is placed in an elevator accelerating upward with a constant acceleration, a. In the beaker, assume there is a thin cylinder of height h with an infinitesimal cross-sectional area, ΔS.
The motion of the liquid within this infinitesimal cylinder is considered to obtain the pressure difference. Three vertical forces act on this liquid:
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...
Steady, Laminar Flow in Circular Tubes01:23

Steady, Laminar Flow in Circular Tubes

Hagen-Poiseuille flow describes a viscous fluid's steady, incompressible flow through a cylindrical tube with a constant radius R. This flow profile is often applied to understand fluid transport in narrow channels, such as capillaries. It serves as a foundational example of laminar flow. In this model, cylindrical coordinates (r,θ,z) are used to describe the radial (r), angular (θ), and axial (z) dimensions within the tube. For Hagen-Poiseuille flow, the velocity profile is purely axial,...
Laminar Flow01:27

Laminar Flow

Laminar flow represents a smooth, orderly fluid motion where particles move along parallel paths, resulting in minimal mixing between layers. Streamlined particle paths characterize this flow regime and occur under conditions where viscous forces dominate over inertial forces. The distinction between laminar, transitional, and turbulent flow is primarily determined by the Reynolds number, a dimensionless quantity calculated as:
Application of Integration: Problem Solving01:30

Application of Integration: Problem Solving

The process of breathing involves the periodic intake and expulsion of air, known as the respiratory cycle, which typically lasts about five seconds. Modeling the volume of air inhaled into the lungs as a function of time provides insight into both the dynamics and efficiency of pulmonary ventilation. This volume is determined by integrating the airflow rate over time, which captures the cumulative effect of air entering the lungs.Sinusoidal Model of AirflowAirflow during respiration is not...

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相关实验视频

Updated: Jun 24, 2026

Microfluidic Chips Controlled with Elastomeric Microvalve Arrays
18:11

Microfluidic Chips Controlled with Elastomeric Microvalve Arrays

Published on: October 1, 2007

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用于嵌入式控制微流体的气动计算机.

Siavash Ahrar1,2, Manasi Raje1, Irene C Lee1

  • 1Department of Biomedical Engineering, University of California, Irvine, CA, USA.

Science advances
|June 2, 2023
PubMed
概括

微流体芯片上的气动电路作为可编程计算机来控制液体处理. 这一创新使得复杂的,独立的,由简单的真空源供电的芯片实验室设备成为可能.

科学领域:

  • 微流体学 微流体学
  • 嵌入式系统 嵌入式系统
  • 另类计算 替代计算

背景情况:

  • 传统的嵌入式控制系统通常需要复杂的电子设备.
  • 微流体设备提供小型化,但通常缺乏集成的可编程控制.

研究的目的:

  • 为了展示使用气动微流体电路实现的有限状态机器.
  • 为了使微流体液体处理程序能够在芯片上进行嵌入式控制.
  • 为独立的芯片实验室设备开发一个框架.

主要方法:

  • 使用气动微流体门实现了有限态机器.
  • 这些气动控制器被集成到用于液体处理的微流体芯片上.
  • 通过改变膜孔穿孔模式来实现可重编程逻辑.
  • 用户输入通过手动关闭端口来促进.

主要成果:

  • 创建了单立体集成系统,只需要外部真空电源.
  • 成功演示了多达四位状态内存的状态机器.
  • 对于下一个状态过渡的组合逻辑是完全可重编程的.
  • 气动计算机有效地指导了微流体液体处理.

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结论:

  • 气动有限态机器为物理系统中嵌入式控制提供了一种可行的方法.
  • 这项技术为具有先进功能的自主实验室芯片设备铺平了道路.
  • 该系统为微流体控制提供了一个简单,可重新编程和集成的解决方案.