Published 12/2022MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHzLanguage: English | Size: 201.87 MB | Duration: 0h 41m
understanding of fluidis behavior at the microscale, applications of micro- drops and capsules
What you'll learn
Behavior and properties of fluids at the microscale
Fabrication of glass capillary and PDMS microfluidic devices
Mechanisms of micro- capsules and drops formation
Life at Low Reynolds Numbers
Navier-Stokes equations
Weber, Reynolds and Capillary numbers
Surface charges and the electrical double layer
Electrosmosis, streaming potential
Electrokinetic phenomena
Pressure-, gravity-, electroosmosis-driven flows
The concept of a continuum
Microswimmers that utilize and overcome Brownian diffusion
Fluids mixing by stirring and diffusion
Example of application: electroosmotic pumping
Requirements
Threre is no specific requirements
Description
Nanoscale fluidics or microfluidics studies the behavior of fluids at the microscale.
The properties of fluids become fundamentally different. For example, at very low Reynolds, number water in tiny channels becomes as viscous as honey (without a change of viscosity, only by reducing the dimensions). The fluid-liquid interface is charged, where molecules accumulate. It is challeg to pump fluids through microchannels using mechanical pressure. It turned out that applying small currents requires much less energy or electroosmosis. It also affects tiny swimmers like bacteria or microrobots, which cannot utilize the motion strategy of big creatures. Biological cells are very different from the mechanical design of other man-made machines. Cells are microfluidic containers with rapidly mixing and reacting molecules that meet several s per second due to ultra-short traffic and diffusion . During past decades new microfluidic devices have been discovered that utilize properties of fluids at a small scale. For example, glass capillary and PDMS microfluidics are used to manipulate fluids at a low Reynolds number to fabricate droplets and double emulsions. These products have multiple applications in the design of new ultra-light materials with new properties, agriculture, cosmetics, medicine, and environmental science. For example, using picoliter drops, high-throughput screening on the target of interest helps conduct thousands of expents per second using minimal reagents. It enables the screening of millions of reactions, such as during the discovery of new drugs, in a short . The course contains back-of-the-envelope calculations and multiple examples for students and scientists interested in expental droplet microfluidics.
Overview
Section 1: Introduction
Lecture 1 Intro
Section 2: Calculations
Lecture 2 Formation of droplets: dripping and jetting in microfluidic devices
Lecture 3 Reynolds, capillary numbers and drag force calculations
Section 3: Diffusive transport of molecules
Lecture 4 Mixing and diffusion in capsule
Lecture 5 Efficient catalytic microreactor
Students, eeers and scientists working in expental science
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Code:
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Code:
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