Viscosity.

Slides:



Advertisements
Similar presentations
BIO 208 FLUID FLOW OPERATIONS IN BIOPROCESSING [ ]
Advertisements

Cone-Plate Viscometer
3.5 Non-Newtonian fluids Newtonian fluids are fluids which follow Newton’s law: Shear Stress Shear Rate CHE Non-Newtonian fluids.
FLUID MECHANICS FOR CHEMICAL ENGINEERS. Introduction Fluid mechanics, a special branch of general mechanics, describes the laws of liquid and gas motion.
Density, ρ= mass/unitvolume –Slugs/ft3;kg/m3
L ECTURE 5 Properties Of Fluids-Cont. By Dr. Mohamed Fekry 2 nd Sem.1434.
Chapter 2: Properties of Fluids
II. Properties of Fluids. Contents 1. Definition of Fluids 2. Continuum Hypothesis 3. Density and Compressibility 4. Viscosity 5. Surface Tension 6. Vaporization.
Viscosity SUNIL PRABHAKAR SR. No Introduction Viscosity is a quantitative measure of a fluid’s resistance to flow. Dynamic (or Absolute) Viscosity:
Lec 25: Viscosity, Bernoulli equation
CE 230-Engineering Fluid Mechanics Lecture # 4and5 Fluid properties (2)
Engineering H191 - Drafting / CAD The Ohio State University Gateway Engineering Education Coalition Lab 4P. 1Autumn Quarter Transport Phenomena Lab 4.
1 MFGT 242: Flow Analysis Chapter 3: Stress and Strain in Fluid Mechanics Professor Joe Greene CSU, CHICO.
Fluid mechanics 3.1 – key points
Chapter 2: Viscosity of Fluid.
Viscosity Measurements
1 MAE 5130: VISCOUS FLOWS Lecture 4: Viscosity August 26, 2010 Mechanical and Aerospace Engineering Department Florida Institute of Technology D. R. Kirk.
MEL 417 Lubrication Minor I Date: Tuesday, 08/02/2011 Time: 4 – 5 pm. Venue: Bl. V, 419.
Pharos University Fluid Mechanics For Electrical Students Dr. A. Shibl.
Paul Drosinis UBC Phys 420. Introduction Short history on fluid dynamics Why bother studying fluid flow? Difference between Newtonian and Non-Newtonian.
VISCOSITY.
Fluid Mechanics Principles & Applications  Educate.spsu.edu/faculty website  SPSU  “afm”  Syllabus  Notes - schedules  Power Point.
IIT-Madras, Momentum Transfer: July 2005-Dec 2005 Friction (and Shear) n Gas u Origin of Viscosity u Mix of gases n Liquid u Origin of Viscosity u Effect.
Chapter Six Non-Newtonian Liquid.
10/11/2015BAE2023 Physical Properties of Biological Materials Lecture 10 Viscosity 1 This chapter is a study of the shear stress as a function of the shear.
PIPELINE DESIGN ‘ THE ENGINEERING APPROACH’ SESSION OBJECTIVES THE ENGINEERING EQUATIONS TRANSMISSION LINE GAS FLOW LIQUID SYSTEM.
Physical Fluid Dynamics by D. J. Tritton What is Fluid Dynamics? Fluid dynamics is the study of the aforementioned phenomenon. The purpose.
What is Fluid????? A fluid may be liquid, vapour or gas. It has no permanent shape but takes up the shape of a containing vessel or channel or is shaped.
Rotating Disk Viscometer Problem 1.55 Jillann Walker
Rheology At the completion of this section the student will be able to: describe Newtonian behaviour; illustrate and explain 3 different kinds of non-Newtonian.
SNPIT & RC,UMRAKH.
TYPES OF FLUIDS.
FACULTY OF ENGINEERING TECHNOLOGY & RESEARCH
Chapter 1 Measurement of Viscosity
Viscosity Contents: How to calculate Whiteboards.
Energy Reduction Through Tribology-2
RHEOLOGY Young’s modulus – E = Modulus of rigidity – G =
Chapter 4 Fluid Mechanics Frank White
Viscosity & conductance
HYDROSTATIC LUBRICATION Applied Fluid Flow
Part II. Dimensional Analysis and Experimentation
FLUIDS AND THEIR PROPERTIES
FLUID DYNAMICS CREATED BY STUDENTS EDUCATION CIRCLE
GOVERNMENT ENGINEERING COLLEGE VALSAD
Viscosity.
International Journal of Pharmaceutics 327 (2006) 12–16
Lecture – 1 Ms. Thevasha Sathiyakumar
Chapter 2 Properties of Fluids
Subject Name: FLUID MECHANICS
Exp. 1- Viscosity.
1. Density y Volume,  Mass, m C Elemental Volume,   Mass, m x z.
Viscous Flow in Pipes.
CHAPTER 6 Viscous Flow in Pipes
Fundamentals of Convection
Lecture 10 – Viscosity and Flow (Ch. 6)
Lecture 9 – Viscosity and Flow (Ch. 6)
Lecture 10 – Viscosity and Flow (Ch. 6)
Red Sea University Faculty of Engineering Department of Mechanical Engineering HYDROSTATIC LUBRICATION Moataz Abdelgadir Ali Abdelgadir.
FLUID MECHANICS REVIEW
Lecture 10 Announcements
Introduction to Food Engineering
Lecture 10 – Viscosity and Flow (Ch. 6)
Lecture 9 – Viscosity and Flow (Ch. 6)
Chapter 8 Introduction and Basic Fluid Properties
Lecture 10 – Viscosity and Flow (Ch. 6)
Viscosity.
CHAPTER-ONE INTRODUCTION 1. Introduction Mechanics: The oldest physical science that deals with both stationary and moving bodies under the influence.
Hemin J Majeed MSc. Pharmaceutical sciences
WHAT IS FLUID? Fluid is a substance that is capable of flowing. It has no definite shape of its own. It assumes the shape of its container. Both liquids.
Introduction to Fluid Mechanics
Presentation transcript:

Viscosity

Introduction Kinematic Viscosity : Viscosity is a quantitative measure of a fluid’s resistance to flow. Dynamic (or Absolute) Viscosity: The dynamic viscosity(η) of a fluid is a measure of the resistance it offers to relative shearing motion. η= F/ [A×(u/h)] η= τ /(u/h) N-s/m² Kinematic Viscosity : It is defined as the ratio of absolute viscosity to the density of fluid. ν= η/ρ m²/s ; ρ= density of fluid

Viscosity Measurements Capillary Viscometers It gives the ‘kinematic viscosity’ of the fluid. It is based on Poiseuille’s law for steady viscous flow in a pipe.

Viscosity Measurements Rotational Viscometers These viscometer give the value of the ‘dynamic viscosity’. It is based on the principle that the fluid whose viscosity is being measured is sheared between two surfaces. In these viscometers one of the surfaces is stationary and the other is rotated by an external drive and the fluid fills the space in between. The measurements are conducted by applying either a constant torque and measuring the changes in the speed of rotation or applying a constant speed and measuring the changes in the torque. There are two main types of these viscometers: rotating cylinder and cone-on-plate viscometers

Viscosity Measurements Rotating cylinder viscometer

Viscosity Measurements Cone-on-plate viscometer

Effects of temperature The viscosity of liquids decreases with increase the temperature. The viscosity of gases increases with the increase the temperature.

Effects of temperature The lubricant oil viscosity at a specific temperature can be either calculated from the viscosity - temperature equation or obtained from the viscosity-temperature ASTM chart. Viscosity-Temperature Equations

Effects of temperature fig: Viscosity-temperature characteristics of selected oils

Viscosity index VI = (L - U)/ (L - H) * 10 An entirely empirical parameter which would accurately describe the viscosity- temperature characteristics of the oils. The viscosity index is calculated by the following formula: VI = (L - U)/ (L - H) * 10 where , VI is viscosity index U is the kinematic viscosity of oil of interest L and H are the kinematic viscosity of the reference oils Fig . Shows the evaluation of viscosity index

Effects of pressure Lubricants viscosity increases with pressure. For most lubricants this effect is considerably largest than the other effects when the pressure is significantly above atmospheric. The Barus equation :

Effects of pressure

Viscosity - shear relationship For Newtonian fluids, shear stress linearly vary with the shear rate as shown in Figure. Viscosity is constant for this kind of fluid. τ = η (u/h) Non Newtonian fluid doesn’t follow the linear relation between viscosity and shear rate.

Viscosity – shear relationship Pseudoplastic Behaviour Pseudoplastic or shear thinning and is associated with the thinning of the fluid as the shear rate increases. Thixotropic Behaviour Thixotropic or shear duration thinning, is associated with a loss of consistency of the fluid as the duration of shear increases. The opposite of this behavior is known as inverse thixotropic.

Applications Selection of lubricants for various purpose. - we can choose an optimum range of viscosity for engine oil. - for high load and also for speed operation high viscous lubricants is required. In pumping operation - for high viscous fluid high power will require. - for low viscous fluid low power will require. In making of blend fuel - less viscous fuels easy to mix. In the operation of coating and printing.

References ‘Engineering Tribology’ by “Gwidon W. stachowiak” and “Andrew W. Batchelor”. ‘Engineering Tribology’ by “J. A. Williams”. www.wikipedia.org www.google.com