Presentation is loading. Please wait.

Presentation is loading. Please wait.

© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint.

Published byRobert Long Modified over 8 years ago

Similar presentations

Presentation on theme: "© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint."— Presentation transcript:

1 © Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint Slides to Accompany Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices Chapter 3

2 © Cambridge University Press 2010 The fully developed Poiseuille flow solution approximates the flow rate- pressure relation in long, narrow channels Fluid channels can be modeled using electrical circuit theory with equivalent component properties The hydraulic resistance is a parameter that measures the resistance of a channel to volumetric flow hydraulic impedance adds the capacity of the fluid interfaces (channel walls or bubbles) to deform Ch 3: Hydraulic Circuit Analysis

3 © Cambridge University Press 2010 Integrating the Hagen-Poiseuille flow distribution leads to a relation for volumetric flow rate in terms of the pressure gradient This can be discretized to describe the hydraulic resistance of a long, circular tube Sec 3.1 : Hydraulic Circuits

4 © Cambridge University Press 2010 For tubes with noncircular cross sections, a hydraulic radius can be defined to approximate the hydraulic resistance The hydraulic resistance leads to the Hagen-Poiseuille law, which is analogous to Ohm’s law Sec 3.1 : Hydraulic Circuits

5 © Cambridge University Press 2010 Hydraulic resistance describes the system response for steady pressure gradients Unsteady pressure gradients are described using compliance i.e. hydraulic capacitance Sec 3.2 : Hydraulic Circuit Elements

6 © Cambridge University Press 2010 Hydraulic resistance describes the system response for steady pressure gradients Unsteady pressure gradients are described using compliance i.e. hydraulic capacitance Sec 3.2 : Hydraulic Circuit Elements

7 © Cambridge University Press 2010 Conservation of mass is analogous to Kirchoff’s Current Law Sec 3.2 : Hydraulic Circuit Elements

8 © Cambridge University Press 2010 Sec 3.2 : Hydraulic Circuit Elements Series and parallel circuit laws follow from conservation of mass at nodes combined with the component flow relations

9 © Cambridge University Press 2010 Sec 3.2 : Hydraulic Circuit Elements Solving for the steady flow in a microfluidic system involves solving a set of real algebraic equations For sinusoidally oscillating flow, a set of complex algebraic equations is solved

Download ppt "© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint."

Similar presentations

Voltage and Current Division

Voltage and Current Division
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Unit 8 Combination Circuits

Unit 8 Combination Circuits
© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint.

© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint.
Basic Governing Differential Equations

Basic Governing Differential Equations
Series and Parallel Circuits Kirchoff’s Voltage and Current Laws Circuits 1 Fall 2005 Harding University Jonathan White.

Series and Parallel Circuits Kirchoff’s Voltage and Current Laws Circuits 1 Fall 2005 Harding University Jonathan White.
ENTC 303: Fluid Mechanics and Fluid Power

ENTC 303: Fluid Mechanics and Fluid Power
Lecture 21 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 21 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 9: FLOWS IN PIPE

MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 9: FLOWS IN PIPE
ECE 201 Circuit Theory I1 Resistors in Parallel Resistors connected at a single node pair Voltage across each resistor is the same.

ECE 201 Circuit Theory I1 Resistors in Parallel Resistors connected at a single node pair Voltage across each resistor is the same.
EET 110 - Survey of Electronics Chapter 14 - Series-parallel circuits.

EET Survey of Electronics Chapter 14 - Series-parallel circuits.
1 Sinusoidal Functions, Complex Numbers, and Phasors Discussion D14.2 Sections 4-2, 4-3 Appendix A.

1 Sinusoidal Functions, Complex Numbers, and Phasors Discussion D14.2 Sections 4-2, 4-3 Appendix A.
EXAMPLE 3 Use addition of complex numbers in real life Electricity Circuit components such as resistors,inductors, and capacitors all oppose the flow of.

EXAMPLE 3 Use addition of complex numbers in real life Electricity Circuit components such as resistors,inductors, and capacitors all oppose the flow of.
Chapter 20: Circuits Current and EMF Ohm’s Law and Resistance

Chapter 20: Circuits Current and EMF Ohm’s Law and Resistance
Lecture 27 Review Phasor voltage-current relations for circuit elements Impedance and admittance Steady-state sinusoidal analysis Examples Related educational.

Lecture 27 Review Phasor voltage-current relations for circuit elements Impedance and admittance Steady-state sinusoidal analysis Examples Related educational.
Electrical Circuits Dr. Sarika Khushalani Solanki

Electrical Circuits Dr. Sarika Khushalani Solanki
Overview of ENGR 220 Circuits 1 Fall 2005 Harding University Jonathan White.

Overview of ENGR 220 Circuits 1 Fall 2005 Harding University Jonathan White.
© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint.

© Cambridge University Press 2010 Brian J. Kirby, PhD Sibley School of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY Powerpoint.
Current, Resistance,Voltage Electric Power & Energy Series, Parallel & Combo Circuits with Ohm’s Law, Combo Circuits with Kirchoff’s Laws Review for Chapters.

Current, Resistance,Voltage Electric Power & Energy Series, Parallel & Combo Circuits with Ohm’s Law, Combo Circuits with Kirchoff’s Laws Review for Chapters.
Dynamics of Blood Flow 26.3.12. Transport System A closed double-pump system: Systemic Circulation Lung Circulation Left side of heart Right side of heart.

Dynamics of Blood Flow Transport System A closed double-pump system: Systemic Circulation Lung Circulation Left side of heart Right side of heart.

Similar presentations

Ads by Google