MENG353 - FLUID MECHANICS Fluid... · MUNSON,P.GERHART,A.GERHART and HOCHSTEIN . 2 ... 7. Physical...
Transcript of MENG353 - FLUID MECHANICS Fluid... · MUNSON,P.GERHART,A.GERHART and HOCHSTEIN . 2 ... 7. Physical...
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MENG353 - FLUID MECHANICS
CHAPTER 1 FUNDAMENTALS
ASSOC.PROF.DR.HASAN HACIŞEVKİ
FALL 2017 - 18
EASTERN MEDITERRANEAN UNIVERSITY
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SOURCE: FUNDAMENTALS OF FLUIDMECHANICS
MUNSON,P.GERHART,A.GERHART and HOCHSTEIN
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A fluid is defined as:
“A substance that continually deforms (flows) under
an applied shear stress regardless of the magnitude
of the applied stress”.
It is a subset of the phases of matter and includes
liquids, gases, plasmas and, to some extent, plastic
solids.
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Distinction between a Solid and a Fluid
Solid
Definite Shape and definitevolume.
Does not flow easily.
Molecules are closer.
Attractive forces between themolecules are large enough toretain its shape.
An ideal Elastic Solid deformunder load and comes back tooriginal position upon removal ofload.
Plastic Solid does not comes backto original position upon removalof load, means permanentdeformation takes place.
Fluid
Indefinite Shape and Indefinitevolume & it assumes the shapeof the container which itoccupies.
Flow Easily.
Molecules are far apart.
Attractive forces between themolecules are smaller.
Intermolecular cohesive forcesin a fluid are not great enough tohold the various elements offluid together. Hence Fluid willflow under the action of appliedstress. The flow will becontinuous as long as stress isapplied. 4
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Distinction between a Gas and Liquid
The molecules of a gas aremuch farther apart thanthose of a liquid.
Hence a gas is verycompressible, and whenall external pressure isremoved, it tends to expandindefinitely.
A gas is therefore inequilibrium only when it iscompletely enclosed.
A liquid is relativelyincompressible.
If all pressure, except thatof its own vapor pressure,is removed, the cohesionbetween molecules holdsthem together, so that theliquid does not expandindefinitely.
Therefore a liquid mayhave a free surface.
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FLUID CHARACTERISTICS CAN BE
DESCRIBED QUALITATIVELY IN TERMS OF
CERTAIN BASIC QUANTITIES SUCH AS
LENGTH, TIME, AND MASS.
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FUNDAMENTAL UNITS
Fundamental units are the units which are not dependent with any other units like length, mass, time, electric current, thermodynamic temperature, amount of substance, or luminous intensity in the International System of Units, consisting respectively of the meter, kilogram, second, ampere, kelvin, mole etc are called fundamental units. Some examples are as follows :-
length is fundamental unit,meter is it's SI unit, m is it's symbol
mass is fundamental unit,kilo gram is it's SI unit, kg is it's symbol
time is fundamental unit,second is it's SI unit, s is it's symbol
electric current is fundamental unit,ampere is it's SI unit, A is it's symbol
temperature is fundamental unit,kelvin is it's SI unit, K is it's symbol
amount of substance is fundamental unit,mole is it's SI unit, mol is it's symbol
luminous intensity is fundamental unit,candela is it's SI unit, cd is it's symbol
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Physical quantity unit abbreviation
1 Mass kilogram [kg]
2 Length meter [m]
3 Time second [s]
4 Temperature Kelvin [K]
5 Amount of substance mole [mol]
6 Electric current ampere [A]
7 Luminous intensity Candela [cd]
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SI Units
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FPS Units
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1.3 ANALYSIS OF FLUID BEHAVIOR
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1.4 MEASURES OF FLUID MASS AND WEIGHT
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Fluids Engineering
22 PBU D
2 2
s SM SNU U U
Reality
Fluids Engineering System Components Idealized
EFD, Mathematical Physics Problem Formulation
AFD, CFD, mU
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Analytical Fluid Dynamics
• The theory of mathematical physics problem formulation
• Control volume & differential analysis
• Exact solutions only exist for simple geometry and conditions
• Approximate solutions for practical applications• Linear
• Empirical relations using EFD data
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Analytical Fluid Dynamics
Schematic
• Example: laminar pipe flow
Exact solution :
2 21( ) ( )( )4
pu r R rx
Friction factor:
88 64
Re2 2w
du
dywfV V
Assumptions: Fully developed, Low Approach: Simplify momentum equation, integrate, apply boundary conditions to determine integration constants and use energy equation to calculate head loss
xgy
u
x
u
x
p
Dt
Du
2
2
2
2
Head loss:1 2
1 2 f
p pz z h
2
2
32
2f
L V LVh f
D g D
UD2000Re
00
0
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Experimental Fluid Dynamics (EFD)
Definition:Use of experimental methodology and procedures for solving fluidsengineering systems, including full and model scales, large and tabletop facilities, measurement systems (instrumentation, data acquisitionand data reduction), uncertainty analysis, and dimensional analysis andsimilarity.
EFD philosophy:
• Decisions on conducting experiments are governed by the ability of theexpected test outcome, to achieve the test objectives within allowableuncertainties.
• Integration of UA into all test phases should be a key part of entire experimental program
• test design
• determination of error sources
• estimation of uncertainty
• documentation of the results
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Purpose
• Science & Technology: understand and investigate a phenomenon/process, substantiate and validate a theory (hypothesis)
• Research & Development: document a process/system, provide benchmark data (standard procedures, validations), calibrate instruments, equipment, and facilities
• Industry: design optimization and analysis, provide data for direct use, product liability, and acceptance
• Teaching: instruction/demonstration
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Full and model scale
• Scales: model, and full-scale
• Selection of the model scale: governed by dimensional analysis and similarity48
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Computational Fluid Dynamics• CFD is use of computational methods for
solving fluid engineering systems, including modeling (mathematical & Physics) and numerical methods (solvers, finite differences, and grid generations, etc.).
• Rapid growth in CFD technology since advent of computer
ENIAC 1, 1946 IBM WorkStation49
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Purpose• The objective of CFD is to model the continuous fluids
with Partial Differential Equations (PDEs) and discretize PDEs into an algebra problem, solve it, validate it and achieve simulation based designinstead of “build & test”
• Simulation of physical fluid phenomena that are difficult to be measured by experiments: scale simulations (full-scale ships, airplanes), hazards (explosions,radiations,pollution), physics (weather prediction, planetary boundary layer, stellar evolution).
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Modeling
• Mathematical physics problem formulation of fluid engineering system
• Governing equations: Navier-Stokes equations (momentum), continuity equation, pressure Poisson equation, energy equation, ideal gas law, combustions (chemical reaction equation), multi-phase flows(e.g. Rayleigh equation), and turbulent models (RANS, LES, DES).
• Coordinates: Cartesian, cylindrical and spherical coordinates result in different form of governing equations
• Initial conditions(initial guess of the solution) and Boundary Conditions (no-slip wall, free-surface, zero-gradient, symmetry, velocity/pressure inlet/outlet)
• Flow conditions: Geometry approximation, domain, Reynolds Number, and Mach Number, etc.
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■ MATHEMATICAL MODELING OF ENGINEERING PROBLEMS
The analytical approach
(including the numerical
approach) has the
advantage that it is fast and
inexpensive, but the results
obtained are subject to the
accuracy of the
assumptions,
approximations, andidealizations made in the
analysis.
The experimental approach
has the advantage that we
deal with the actual physical
system, and the desired
quantity is determined by
measurement, within the limits
of experimental error.
However, this approach isexpensive, time-consuming,
and often impractical.
Experimental vs. Analytical Analysis
An engineering device or process can be studied either experimentally
(testing and taking measurements) or analytically (by analysis or
calculations).
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MODELING IN ENGINEERING
Why do we need differential equations?
The descriptions of most scientific
problems involve equations that relate the
changes in some key variables to each
other.
In the limiting case of infinitesimal or
differential changes in variables, we obtain
differential equations that provide precise
mathematical formulations for the physical
principles and laws by representing the
rates of change as derivatives.
Therefore, differential equations are used
to investigate a wide variety of problems in
sciences and engineering.
Do we always need differential
equations? Many problems encountered
in practice can be solved without resorting
to differential equations and the
complications associated with them.
MATHEMATICAL MODELING OF
PHYSICAL PROBLEMS.
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■ PROBLEM-SOLVING TECHNIQUE
Step 1: Problem Statement
Step 2: Schematic
Step 3: Assumptions and Approximations
Step 4: Physical Laws
Step 5: Properties
Step 6: Calculations
Step 7: Reasoning, Verification, and Discussion
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