كتاب An Introduction to SOLIDWORKS Flow Simulation 2019
منتدى هندسة الإنتاج والتصميم الميكانيكى
بسم الله الرحمن الرحيم

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منتدى هندسة الإنتاج والتصميم الميكانيكى
بسم الله الرحمن الرحيم

أهلا وسهلاً بك زائرنا الكريم
نتمنى أن تقضوا معنا أفضل الأوقات
وتسعدونا بالأراء والمساهمات
إذا كنت أحد أعضائنا يرجى تسجيل الدخول
أو وإذا كانت هذة زيارتك الأولى للمنتدى فنتشرف بإنضمامك لأسرتنا
وهذا شرح لطريقة التسجيل فى المنتدى بالفيديو :
http://www.eng2010.yoo7.com/t5785-topic
وشرح لطريقة التنزيل من المنتدى بالفيديو:
http://www.eng2010.yoo7.com/t2065-topic
إذا واجهتك مشاكل فى التسجيل أو تفعيل حسابك
وإذا نسيت بيانات الدخول للمنتدى
يرجى مراسلتنا على البريد الإلكترونى التالى :

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الرئيسيةالبوابةالتسجيلدخولحملة فيد واستفيدجروب المنتدى

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 كتاب An Introduction to SOLIDWORKS Flow Simulation 2019

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تاريخ التسجيل : 01/07/2009
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كتاب An Introduction to SOLIDWORKS Flow Simulation 2019  Empty
مُساهمةموضوع: كتاب An Introduction to SOLIDWORKS Flow Simulation 2019    كتاب An Introduction to SOLIDWORKS Flow Simulation 2019  Emptyالسبت 06 مارس 2021, 11:26 pm

أخوانى فى الله
أحضرت لكم كتاب
An Introduction to SOLIDWORKS Flow Simulation 2019
John E. Matsson, Ph.D., P.E.
SBC
P U B L I C A T I O N STable of Contents

كتاب An Introduction to SOLIDWORKS Flow Simulation 2019  S_w_a_13
و المحتوى كما يلي :

Table of Contents
Chapter 1: Introduction 1-1-
SOLIDWORKS Flow Simulation Introduction 1-1-
Setting Up a SOLIDWORKS Flow Simulation Project
Meshing in SOLIDWORKS Flow Simulation
1-2-
1-2-
Calculation Control Options ....
Inserting Boundary Conditions
1-4-
1-4-
Choosing Goals 1-5-
Viewing Results 1-7-
Limitations of SOLIDWORKS Flow Simulation 1-7-
References 1-7-
Chapter 2: Flat Plate Boundary Layer 2-1-
Objectives
Problem Description
2-1-
2-1-
Creating the SOLIDWORKS Part 2-2-
Setting Up the Flow Simulation Project
Selecting Boundary Conditions
Inserting Global Goals
Running the Calculations
Using Cut Plots to Visualize the Flow Field
Using XY Plots with Templates
Comparison of Flow Simulation Results with Theory and Empirical Data
Cloning of the Project
References
2-8-
2-10-
2-14-
2-16-
2-17-
2-18-
2-20-
2-25-
2-34-
Exercises 2-34-
iTable of Contents
Chapter 3: Analysis of the Flow past a Sphere and a Cylinder
Objectives
Problem Description
Creating the SOLIDWORKS Part for the Sphere
Setting Up the Flow Simulation Project for the Sphere
Inserting Global Goal for Calculations
Running the Calculations
Using Cut Plots
Inserting Surface Parameters
3-1-
3-1-
3-1-
3-1-
3-10-
3-12-
3-14-
3-15-
3-16-
Theory 3-17-
Cloning of the Project
Time-Dependent Calculations
3-18-
3-19-
Creating the SOLIDWORKS Part for the Cylinder 3-21-
Setting Up the Flow Simulation Project for the Cylinder
Inserting Global Goals for Calculations and Selecting 2D Flow
Tabular Saving
Running Calculations for the Cylinder
Using Excel for Frequency Analysis
Inserting XY Plots
3-22-
3-23-
3-24-
3-25-
3-26-
3-26-
Strouhal number 3-28-
Inserting Cut Plots 3-29-
References 3-31-
Exercises 3-31-
Chapter 4: Analysis of the Flow past an Airfoil 4-1-
Objectives
Problem Description
4-1-
4-1-
iiTable of Contents
Creating the SOLIDWORKS Part 4-1-
Setting Up the Flow Simulation Project 4-5-
Inserting Global Goals for Calculations 4-7-
Inserting Equation Goal for Calculations 4-8-
Running the Calculations 4-9-
Using Cut Plots 4-10-
Theory 4-11-
Creating a Custom Visualization Parameter 4-12-
Cloning of the Project 4-16-
Creating a Batch Run 4-17-
Reference 4-20-
Exercises 4-20-
Chapter 5: Rayleigh-Benard Convection and Taylor-Couette Flow
Objectives
Problem Description
Creating the SOLIDWORKS Part for Rayleigh-Benard Convection
Setting up the Flow Simulation Project for Rayleigh-Benard Convection
5-1-
5-1-
5-1-
5-2-
5-4-
Creating Lids 5-6-
Inserting Boundary Conditions for Rayleigh-Benard Convection 5-7-
Setting up 2D Flow 5-9-
Inserting Global Goal for Rayleigh-Benard Convection 5-10-
Running the Calculations 5-10-
Inserting Cut Plots 5-12-
Comparison with Neutral Stability Theory 5-14-
Creating the SOLIDWORKS Part for Taylor-Couette Flow
Setting up the Flow Simulation Project for Taylor-Couette Flow
5-15-
5-18-
iiiTable of Contents
Inserting Boundary Conditions for Taylor-Couette Cell 5-20-
Inserting Global Goal and Running the Calculations for Taylor-Couette Flow 5-21-
Inserting Surface Plots 5-22-
Comparison with Neutral Stability Theory 5-24-
References 5-25-
Exercises 5-25-
Chapter 6: Pipe Flow 6-1-
Objectives
Problem Description
6-1-
6-1-
Creating the SOLIDWORKS Part 6-1-
Setting up the Flow Simulation Project 6-5-
Creating Lids for the Pipe 6-8-
Modifying the Computational Domain and Mesh 6-9-
Inserting Boundary Conditions 6-11-
Inserting a Global Goal 6-14-
Running the Calculations for Laminar Pipe Flow 6-14-
Inserting Cut Plots 6-15-
Inserting XY Plots for Laminar Pipe Flow using Templates 6-16-
Theory for Laminar Pipe Flow 6-19-
Running Calculations for Turbulent Pipe Flow 6-21-
Theory for Turbulent Pipe Flow 6-22-
Inserting XY Plots for Turbulent Pipe Flow using Templates 6-22-
References 6-26-
Exercises 6-26-
IVTable of Contents
Chapter 7: Flow across a Tube Bank 7-1-
Objectives
Problem Description
7-1-
7-1-
Creating the SOLIDWORKS Part 7-2-
Setting up the Flow Simulation Project 7-4-
Modifying the Computational Domain and Mesh 7-6-
Inserting Boundary Conditions 7-7-
Inserting Global Goals 7-8-
Running the Calculations for Tube Bank Flow 7-9-
Inserting Cut Plots 7-10-
Creating Sketch for XY Plots 7-11-
Theory and Empirical Data 7-14-
Reference 7-16-
Exercises 7-17-
Chapter 8: Heat Exchanger 8-1-
Objectives
Problem Description
8-1-
8-1-
Creating the SOLIDWORKS Part 8-2-
Setting up the Flow Simulation Project 8-11-
Creating Lids 8-13-
Inserting Boundary Conditions 8-14-
Inserting Goals 8-17-
Running the Calculations for Heat Exchanger 8-17-
Inserting Surface Parameters
Inserting Cut Plots
8-19-
8-20-
Effectiveness- NTU Method 8-21-
vTable of Contents
References 8-23-
Exercises 8-24-
Chapter 9: Ball Valve 9-1-
Objectives
Problem Description
Creating the Ball Valve
Creating the Ball Valve Housing and Pipe Sections
Creating the Ball Valve and Pipe Assembly
Setting up the Flow Simulation Project for the Ball Valve
9-1-
9-1-
9-2-
9-8-
9-13-
9-17-
Creating Lids and Setting the Minimum Gap Size and Number of Cells 9-18-
Inserting Boundary Conditions 9-19-
Inserting Goals 9-20-
Running the Calculations for Ball Valve 9-21-
Inserting Cut Plots 9-22-
Determining Hydraulic Resistance 9-22-
References 9-24-
Exercises 9-24-
Chapter 10: Orifice Plate and Flow Nozzle 10-1-
Objectives
Problem Description
Creating the Orifice Plate in a Pipe
Setting up the Flow Simulation Project for the Orifice Plate
10-1-
10-1-
10-2-
10-6-
Inserting Boundary Conditions 10-7-
Inserting Goals 10-9-
Running the Calculations for Orifice Plate 10-9-
VITable of Contents
Inserting Cut Plots 10-11-
Determining Discharge Coefficient for Orifice Plate
Inserting XY Plots
Creating Sketch for XY Plots
10-12-
10-14-
10-16-
Flow Trajectories 10-17-
Running the Calculations for Long Radius Nozzle 10-18-
Determining Discharge Coefficient for Long Radius Nozzle 10-19-
Reference 10-20-
Exercises 10-21-
Chapter 11: Thermal Boundary Layer 11-1-
Objectives
Problem Description
Setting up the Flow Simulation Project
1 1-1-
11-1-
11-1-
Inserting Boundary Conditions 11-4-
Inserting Goals 11-7-
Running the Calculations for Low Reynolds Number 11-7-
Inserting Cut Plots
Plotting Temperature Profdes using Template
11-8-
11-9-
Theory 11-11-
Plotting Non-dimensional Temperature Profiles using Template
Plotting Local Nusselt Number using Template
Running the Calculations at a High Reynolds Number
11-12-
11-13-
11-14-
References 11-17-
Exercise 11-17-
VIITable of Contents
Chapter 12: Free-Convection on a Vertical Plate and from a Horizontal Cylinder 12-1-
Objectives
Problem Description
Setting up the Flow Simulation Project
12-1-
12-1-
12-2-
Inserting Goals 12-6-
Running Calculations 12-6-
Inserting Cut Plots
Plotting Temperature and Velocity Profiles using Templates
12-8-
12-9-
Theory 12-12-
Plotting Non-dimensional Temperature and Velocity Profiles using Templates
Plotting Local Nusselt Number using Template
Creating the SOLIDWORKS Part for Free Convection from a Horizontal Cylinder
Setting up the Flow Simulation Project for Free Convection from a Horizontal Cylinder
Inserting Global Goal and Selecting 2D Flow for Free Convection from a Horizontal Cylinder
Tabular Savings for Free Convection from Horizontal Cylinder
12-12-
12-14-
12-15-
12-16-
12-17-
12-18-
Inserting Boundary Condition for Free Convection from Horizontal Cylinder 12-18-
Running Calculations for Free Convection from Horizontal Cylinder 12-19-
Inserting Cut Plots for Free Convection from Horizontal Cylinder 12-20-
References 12-21-
Exercises 12-21-
Chapter 13: Swirling Flow in a Closed Cylindrical Container 13-1-
Objectives
Problem Description
Creating the SOLIDWORKS Part for Swirling Flow in a Closed Cylindrical Container
Setting up the Flow Simulation Project for Swirling Flow in a Closed Cylindrical Container
Creating Lids
13-1-
13-1-
13-2-
13-3-
13-6-
VIIITable of Contents
Inserting Boundary Condition for Swirling Flow in a Closed Cylindrical Container
Inserting Global Goal for Swirling Flow in a Closed Cylindrical Container
Running the Calculations
Inserting Flow Trajectories
13-6-
13-8-
13-8-
13-10-
Reference 13-11-
Exercise 13-11-
Chapter 14: Flow past a Model Rocket 14-1-
Objectives
Problem Description
Creating the SOLIDWORKS Parts for the Model Rocket
14-1-
14-1-
14-1-
Setting up the Flow Simulation Project for Model Rocket
Inserting Goals for Model Rocket Flow
Running the Calculations
14-7-
14-9-
14-9-
Inserting Cut Plots 14-10-
Reference 14-11-
Exercises 14-11-
IXAn Introduction to SOLIDWORKS Flow Simulation 2019
Index
A
Abscissa 4-14-, 10-14-, 10-16-
Acceleration due to gravity 12-12-
Add point 2-14-, 10-9-
Add/remove goals 10-9-
Additional parameters 6-4-
Adiabatic wall 1-2-, 3-11-, 3-22-, 11-6-
Air 3-11-, 4-6-, 6-6-, 7-5-, 11-2-, 12-3-
Airfoil 1-2-, 4-1-
Ambient temperature 12-12-
Analysis Toolpak 3-26-
Analysis Toolpak- VBA 3-26-
Analysis type 1-2-, 3-11-, 3-22-, 12-16-
Angle of attack 4-1-, 4-11-, 4-17-, 4-19-
Angular velocity 5-20-
Arc 9-3-, 9-8-
Assembly 9-13-
Automatic setting 1-4-
Average friction coefficient 2-24-, 2-33-
Average heat transfer coefficient 7-16-
Average temperature 7-16-
Axis 3-4-, 3-25-
B
Ball valve 9-1-
Batch run 4-17-
Begin Assembly 9-13-
Bemoulli equation 10-12-
Blasius 2-20-, 6-22-
Boundary condition 1-4-, 1-7-, 2-10-, 2-11-, 2-12-, 2-29-, 5-7-, 5-9-, 5-20-, 6-11-, 7-7-, 8-14-, 8-15-, 8-16-
, 10-7-, 10-8-, 11-4-, 11-5-, 11-14-
Boundary layer 1-5-, 2-1-, 2-21-, 2-30-, 11-14-, 12-9-, 12-11-
Boundary layer thickness 2-22-, 2-31-
Buffer layer 6-25-
C
Calculation Control Options 1-2-, 1-4-, 2-28-, 3-23-, 3-24-, 5-18-, 12-17-
Calculation time 1-4-
Cap ends 8-3-, 10-3-
Capacity ratio 8-23-
Centerline 3-4-, 9-2-, 9-8-
Centerline velocity 10-20-
Centerpoint arc 3-5-, 9-3-, 9-8-
Centrifugal instability 5-1-
Chord length 4-11-
Index -1-An Introduction to SOLIDWORKS Flow Simulation 2019
Circle 3-22-, 5-2-, 5-15-, 6-2-, 7-2-, 7-3-, 8-2-, 8-5-, 8-7-, 9-4-, 9-6-, 9-10-, 9-11-, 10-2-, 10-4-
Clear selections 9-14-
Clone Project 2-25-, 3-18-, 4-16-
Coefficient of volume expansion 5-14-, 12-12-
Component 9-13-
Compressible liquid 1-2-
Computational domain 2-9-, 2-26-, 3-23-, 4-7-, 4-11-, 5-9-, 6-9-, 7-6-, 10-7-, 11-3-, 12-4-
Configuration 3-18-
Convection heat transfer coefficient 8-22-
Convert entities 4-3-
Comer rectangle 2-2-
Comer taps 10-13-
Correction factor 7-16-
Counter-rotating vortices 5-1-
Create lids 5-18-, 6-8-, 8-13-, 9-18-
Critical Reynolds number 2-24-
Curvature refinement 1-4-
Curve through xyz points 4-2-
Custom visualization parameter 4-12-
Cut Plots 2-17-, 3-15-, 3-29-, 4-10-, 5-12-, 6-15-, 7-10-, 8-20-, 9-22-, 10-11-, 10-18-, 11-8-, 12-8-, 12-20-
Cylinder 3-1-
D
Darcy-Weisbach friction factor 6-20-
Database tree 6-6-
Default fluid 3-22-, 4-6-, 6-6-
Default solid 8-12-
Default wall thermal condition 12-3-
Density 7-14-, 8-21-, 9-24-, 10-12-
Depth 8-3-, 8-6-, 8-7-, 9-4-, 9-7-, 9-11-, 10-3-, 10-4-
Diameter ratio 10-13-, 10-20-
Differential equation 12-12-
Dimensionality 3-12-, 3-23-
Direct numerical simulation 3-28-
Discharge coefficient 10-1, 10-12-, 10-13-, 10-19-
Displacement thickness 2-35-
Display boundary layer 2-18-, 11-9-, 12-9-
Display style 6-3-
Display type 5-19-
Draft 10-4-
Draft outward 10-4-
Drag coefficient 3-1-, 3-12-, 3-17-, 3-20-, 3-21-, 3-23-
Drag force 3-17-, 4-11-
Dynamic pressure 2-23-, 2-24-, 2-33-
Dynamic viscosity 3-17-, 4-11-, 6-22-
E
Edit definition 2-29-, 3-19-, 11-14-
Effectiveness 8-21-, 8-23-
Index -2-An Introduction to SOLIDWORKS Flow Simulation 2019
Effectiveness- NTU method 8-18-21-, 8-24-
Enclosure 5-7-
Engineering database 4-13-, 6-6-
Environment pressure 8-16-, 8-19-
Equation goal 1-5-, 1-6-, 2-14-, 2-29-, 3-12-, 3-13-, 3-19-, 3-23, 4-8-
Evenly Distribute Output Points 2-18-, 6-16-, 6-23-, 6-25-, 11-9-, 12-9-
Excel 2016 3-26-
Excel add-ins 3-26-
Excel file 2-31-, 2-32-, 3-16-, 3-26-, 6-16-, 6-22-, 10-14-, 10-16-, 11-9-, 11-13-, 11-16-, 12-9-, 12-14-
Existing Part/Assembly 9-13-
Extemal analysis type 4-6-, 7-5-, 12-3-
Extrude 8-5-, 8-7-, 9-4-, 9-6-, 9-7-, 9-11-, 10-3-, 10-4-
Extruded Boss/Base 2-4-, 4-2-, 4-3-, 5-3-, 5-17-, 6-3-, 7-3-, 8-3-, 8-6-, 8-7-, 8-9-, 9-4-, 9-7-, 9-11-, 9-12-,
10-3-, 10-4-
Extruded Cut 8-5-, 8-7-, 8-8-, 9-6-, 9-10-, 10-4-
F
Fanning friction factor 6-20-, 6-23-
Fast Fourier Transform 3-26-
FeatureManager design tree 2-2-, 2-17-, 2-18-, 3-16-, 3-21-, 4-2-, 4-3-, 4-10-, 4-13-, 5-2-, 5-17-, 6-1-, 6-
3-, 6-4-, 6-15-, 6-22-, 8-2-, 8-6-, 8-8-, 9-2-, 9-3-, 9-6-, 9-7-, 9-8-, 9-10-, 9-11-, 9-22-, 10-2-, 10-4-, 10-11-,
10-14-, 10-16-, 11-8-, 11-9-, 12-8-
File 3-8-
Film temperature 11-12-, 12-12-
Finish 11-2-
Flat plate 2-28-, 11-1-
Flow nozzle 10-1-
Flow openings 1-4-
Flow parameter 6-11-
Flow Simulation project wizard 2-8-, 3-10-, 3-22-, 4-5-, 5-4-, 5-18-, 6-5-, 7-4-, 8-11-, 9-17-, 10-6-, 11-1-,
12-2-
Flow Simulation analysis tree 2-10-, 2-12-, 2-19-, 2-29-, 3-15-, 3-16-, 3-19-, 4-8-, 4-10-, 4-15-, 6-11-, 6-
15-, 6-23-, 7-8-, 8-14-, 8-17-, 9-19-, 9-20-, 10-7-, 10-9-, 10-11-, 10-14-, 10-16-, 10-17-, 11-4-, 11-5-, 11-
7-, 11-8-, 11-9-, 11-14-, 12-6-, 12-8-
Flow trajectories 10-17-
Flow type 2-25-, 11-2-, 11-14-, 12-3-
Fluid cells 1-2-
Fluid properties 12-12-
Fluids 2-25-, 3-22-, 4-6-, 11-14-, 12-16-
Formula 4-13-
Free convection 12-1-
Free stream density 3-17-, 4-11-
Free stream velocity 2-20-, 2-21-, 3-17-, 4-11-, 11-12-
Friction coefficient 2-33-
Friction factor 7-15-, 8-22-
Front plane 2-2-, 3-3-, 3-21-, 4-2-, 5-2-, 6-3-, 6-5-, 6-15-, 7-2-, 7-10-, 8-2-, 8-8-, 9-2-, 9-6-, 9-7-, 9-8-, 9-
10-, 9-11-, 9-13-, 10-2-, 10-4-, 10-17-, 11-8-, 12-8-
Front view 3-21-, 4-1-, 4-4-, 5-2-, 5-15-, 6-11-, 9-6-, 9-10-, 9-13-, 9-16-, 10-4-
Fully developed flow 10-7-
Index -3-An Introduction to SOLIDWORKS Flow Simulation 2019
G
Gases 1-2-, 3-11-, 3-22-, 6-6-, 7-5-, 9-17-, 11-2-, 12-3-
General settings 1-2-, 2-25-, 3-19-, 4-16-, 11-14-
Geometry resolution 6-16-, 6-22-, 6-25-, 7-11-, 11-9-, 12-9-
Global goal 1-5-, 2-14-, 2-34-, 3-12-, 3-23-, 4-7-, 5-21-, 6-14-, 7-8-, 8-17, 12-6-
Gnielinski equation 8-21-
Goal 1-5-, 2-34-, 3-26-, 5-10-, 8-17-, 9-20-, 10-9-, 11-7-, 12-6-
Graphics window 8-2-, 9-12-
Gravity 1-2-, 5-5-, 12-3-
H
Hagen-Poiseuille velocity profile 6-18-
Heat capacity rate 8-21-
Heat conduction in solids 1-2-, 8-11-
Heat exchanger 1-2-, 8-1-
Heat flux 1-2-
Heat transfer coefficient 1-5-, 11-13-, 12-14-
Heat transfer rate 1-2-, 8-21-
Heat transfer surface area 8-21-
Hidden lines visible 5-6-, 5-19-
Hide 8-9-, 10-7-, 10-17-
Hydraulic resistance 9-1-, 9-22-
Hydrodynamic entry length 6-19-
I
Ideal wall 2-13-, 11-6-
In-line tube bank 7-14-
Initial and ambient conditions 1-2-, 3-11-, 3-19-, 3-22-, 4-16-, 12-3-
Initial condition 5-5-, 8-12-, 9-17-, 11-2-
Initial mesh 2-10-
, 3-22-, 6-10-, 11-3-, 12-5-
Inlet velocity 2-10-, 6-11-, 9-19-, 10-7-, 11-1-, 11-4-
Input data 2-10-, 4-7-, 5-7-, 5-20-, 6-11-, 8-14-, 9-19-, 10-7-, 11-4-, 12-6-
Insert 9-3-, 9-11-, 9-12-, 9-13-, 9-15-, 9-22-, 10-11-, 10-14-, 10-16-, 10-17-, 11-8-, 11-9-, 12-8-, 12-9-
Insert goals plot 3-25-, 10-9-
Insert goals table 3-14-, 3-25-, 10-9-
Insert line 9-8-, 10-14-
Insert point goals 10-9-
Integral parameters 3-16-, 4-10-
Internal analysis type 2-8-, 5-5-, 5-18-, 6-6-, 8-11-, 10-6-, 11-2-
Isometric view 5-19-, 7-7-, 9-13-
Item properties 4-12-
Iteration 1-4-
K
Kinematic viscosity 2-20-, 5-24-, 6-19-, 7-14-, 10-13-, 11-12-, 12-12-
Index -4-An Introduction to SOLIDWORKS Flow Simulation 2019
L
Laminar and turbulent 11-14-
Laminar boundary layer 2-21-, 2-24-, 2-35, 11-14-
Laminar free-convection flow 12-14-
Laminar flow 2-30-
Laminaronly 11-2-, 12-3-
Laminar pipe flow 6-16-, 6-18-
Laminar to turbulent transition 11-16-
Law of the wall 6-25-
Leading edge 11-12-
Left view 9-12-, 9-19-, 10-5-, 10-7-, 10-8-, 10-11-
Lift coefficient 3-25-, 3-26-, 4-1-, 4-11-, 4-18-, 4-20-
Lift force 4-11-
Lighting 5-12-, 5-23-
Line 3-4-, 6-4-, 7-11-, 10-14-, 10-16-
Line properties 6-4-, 7-11-, 9-8-, 10-14-, 10-16-
Line sketch tool 2-4-
Linear stability theory 5-1-
Liquids 1-2-, 5-5-, 8-12-, 10-6-, 11-14-
List of goals 2-16-, 3-17-
Load/Unload results 3-14-
Local convection coefficient 11-12-, 12-14-
Local friction coefficient 2-32-, 2-35-
Local Nusselt number 11-1-, 11-12-, 11-13-, 11-16-, 12-1-, 12-14-
Local parameters 3-17-
Local wall shear stress 2-23-
Logarithmic law 6-25-
Long radius flow nozzle 10-1-, 10-18-, 10-19-, 10-20-
M
Mach number 1-5-
Mass balance 10-12-
Mass flow rate 1-6-, 8-21-
Mate 9-13-
Mate selections 9-14-
Materials 6-6-
Maximum physical time 3-23-
Maximum travels 2-26-
Mean velocity 6-1-
Mesh 1-2-, 4-9-
Minimum gap size 1-4-, 10-6-
Minimum wall thickness 1-4-
Model Y 10-16-
Model Z 10-14-
Modify 3-7-
Momentum thickness 2-35-
Index -5-An Introduction to SOLIDWORKS Flow Simulation 2019
N
Narrow channel refinement 1-4-
Narrow gap limit 5-24-
Natural convection 5-1-
Navigator 3-19-, 4-16-, 11-14-
Neutral stability curve 5-14-, 5-25-
New calculation 6-21-, 11-15-
New document 3-2-, 8-2-, 9-2-, 9-8-, 9-13-, 10-2-
New part 4-1-
Non-Newtonian liquid 1-2-
Number of cells per X 2-35-, 3-23-, 6-10-, 7-6-, 9-18-, 11-3-, 12-5-
Number of cells per Y 2-35-, 3-23-, 6-10-, 7-6-, 9-18-, 11-3-, 12-5-
Number of cells per Z 6-10-, 9-18-
Number of levels 2-17-, 3-15-, 4-10-, 5-11-, 5-22-, 6-15-, 7-10-, 8-20-, 9-22-, 10-11-, 11-8-, 12-8-
Number of transfer units 8-21-
Nusselt number 7-16-, 8-21-
O
Obstruction flow meter 1-2-, 10-1
Offset 5-22-
Offset distance 8-3-, 8-7-, 9-3-, 9-11-, 9-12-
Options 4-14-, 5-22-, 6-16-, 7-11-, 10-14-, 10-16-, 11-9-, 12-9-
Orifice plate 10-1-, 10-5-, 10-17-, 10-20-
Overall heat transfer coefficient 8-21-
Overall Nusselt number 12-14-
Overlap layer 6-25-
P
Parameter 2-17-, 3-16-, 5-2-, 5-12-, 5-13-, 5-15-, 5-22-, 6-2-, 6-4-, 6-15-, 7-3-, 7-10-, 8-2-, 8-18-, 9-2-, 9-
8-, 9-22-, 10-11-, 10-14-, 10-16-, 10-17-, 11-8-, 12-8-
Parameter list 4-14-
Partial cells 1-2-
Petukhov equation 8-21-
Physical features 1-2-, 5-5-, 12-3-, 13-4-
Physical parameters 1-5-
Physical time 3-25-
Pipe flow 1-2-, 6-1-, 10-1
Pipe wall taps 10-13-
Plane 8-3-, 8-7-, 9-3-, 9-11-, 9-12-
Plot length 3-25-
Point coordinates 2-14-, 10-9-
Point goal 1-5-, 2-14-, 2-15-, 10-9-
Prandtl number 5-14-, 7-16-, 8-21-, 12-12-
Pre-Defined 6-6-
Pressure 1-5-, 2-17-, 3-17-, 4-11-, 4-14-, 6-15-, 7-10-, 10-11-, 10-14-, 10-17-, 10-19-
Pressure coefficient 4-11-, 4-12-, 4-14-
Pressure drop 6-22-, 7-14-
Index -6-An Introduction to SOLIDWORKS Flow Simulation 2019
Pressure gradient 7-10-
Pressure loss 6-19-
Pressure drop 7-16-
Pressure openings 1-4-, 2-12-, 6-12-, 8-16-, 9-19-, 10-8-, 11-5-
Primary instability 5-1-
Project Fluid 2-9-, 3-22-, 5-5-, 5-18-, 7-5-, 8-12-, 9-17-, 10-6-, 11-2-, 11-14-, 12-3-
R
Radiation 1-2-
Radius ratio 5-25-
Rayleigh-Benard convection 5-1-
Rayleigh number 5-14-, 12-12-, 12-14-
Real gas 1-2-
Real wall 1-5-, 2-14-, 5-7-, 5-20-, 7-7-, 11-7-
Rebuild 7-11-, 10-14-, 10-16-
Reference 10-17-
Reference geometry 8-3-, 8-7-, 9-3-, 9-11-, 9-12-
Refinement 1-2-, 1-4-, 5-18-, 9-21-
Resolution 6-16-, 6-22-, 6-25-, 7-11-, 10-14-, 10-16-, 11-9-, 12-9-
Result resolution 9-18-
Results 1-7-, 3-24-, 5-22-
Reverse direction 8-7-, 8-8-, 9-12-
Revolve 3-8-, 3-16-, 9-3-, 9-10-
Revolved Boss/Base 3-7-, 9-3-, 9-10-
Reynolds number 2-14-, 2-21-, 2-22-, 2-25-, 2-32-, 2-33-, 2-34-, 2-35-, 2-36-, 3-17-, 3-19-, 3-28-, 4-11-,
6-1-, 6-18-, 6-22-, 7-14-, 7-16-, 8-21-, 10-1, 10-13-, 10-19-, 11-1-, 11-12-, 11-13-, 11-15-, 11-16-
Right plane 6-1-, 8-20-, 10-11-, 10-14-, 10-16-
Roll cell instabilities 5-1-
Rotate view 2-10-, 2-12-, 5-6-, 5-18-, 6-11-, 6-12-, 8-14-, 8-16-, 9-19-, 10-5-, 10-7-, 10-8-, 11-4-, 11-5-
Rotating cylinders 5-1-
Rotation 1-2-
Rotation rate 5-24-
Run 2-16-, 2-29-, 3-14-, 4-9-, 5-10-, 5-21-, 6-14-, 6-21-, 7-9-, 8-17-, 9-21-, 10-9-, 10-18-, 11-7-, 11-15-,
12-6-, 12-19-
S
Save 3-8-
Save as 3-8-, 3-22-, 7-3-
SD 2030 4-2-
Section view 5-12-
Select 3-5-, 6-4-, 6-11-, 11-4-, 11-5-
Select other 5-7-, 5-20-, 6-11-, 8-14-, 8-16-, 9-19-, 10-7-, 10-8-
Selig/Donovan SD 2030 Airfoil 4-1-
Shear stress 2-32-, 6-20-, 6-23-
Shell and tube heat exchanger 8-1-, 8-9-, 8-21-
Show basic mesh 3-23-, 4-8-
SI units 2-8-, 3-10-, 3-22-, 4-5-, 5-4-, 5-18-, 6-5-, 7-4-, 8-11-, 9-17-, 10-6-, 11-1-, 12-2-
Similarity coordinate 2-20-, 11-1-, 11-11-, 11-12-, 12-12-
Sketch 3-3-, 3-7-, 3-21-, 6-4-, 7-2-, 8-2-, 8-5-, 8-7-, 9-2-, 9-4-, 9-8-, 9-10-, 10-2-, 10-4-, 10-14-, 10-16-
Index -7-An Introduction to SOLIDWORKS Flow Simulation 2019
Sketch X 4-14-
Small solid features refinement 1-4-
Smart dimension 3-6-
Solid cells 1-2-
Solid model 3-1-
SOLIDWORKS 1-1-, 3-1-, 3-9-, 4-1-, 5-1-, 12-2-
SOLIDWORKS Flow Simulation 1-1-, 3-1-, 3-9-, 3-17-, 6-5-, 12-2-
SOLIDWORKS menu 9-12-, 10-14-, 10-16-
SOLIDWORKS Motion 1-1-
SOLIDWORKS Simulation 1-1-
Solution time 1-5-
Solve 2-16-, 3-14-, 4-9-, 5-10-, 5-21-, 6-14-, 6-21-, 7-9-, 8-17-, 9-23-, 10-9-, 10-18-, 11-7-, 11-15-, 12-6-,
12-19-
Solver 1-5-, 2-16-, 3-14-, 4-9-, 5-11-, 6-15-, 9-21-, 10-18-, 11-8-, 12-7-
Specific heat 7-16-, 8-21-
Sphere 3-1-
Split line 2-7-
Staggered tube bank 7-15-
Stainless steel 8-1-, 8-12-, 8-23-
Standard mates 9-13-
Static pressure 2-12-, 6-12-, 9-19-, 10-8-, 10-9-, 11-5-
Steam 1-2-
Streamlines 10-17-
Streamwise coordinate 11-12-
Strouhal number 3-1-, 3-28-
Surface goals 1-5-, 9-20-
Surface parameters 3-16-, 4-10-, 8-19-
Surface plot 5-22-
Surface pressure 4-11-
Surface temperature 7-16-
Symmetry boundary condition 6-9-
T
Taylor-Couette flow 5-1-
Taylor number 5-25-
Temperature 1-5-, 5-12-, 7-8-, 7-10-, 7-11-, 8-14-, 8-20-, 11-7-, 11-8-, 11-9-, 12-9-
Temperature gradient 11-8-
Temperature profiles 11-1-, 11-11-
Template 2-18-, 6-16-, 6-22-, 7-11-, 11-9-, 11-12-, 11-13-, 12-9-, 12-12-, 12-14-
Thermal boundary layer 11-1-, 11-7-, 11-9-, 12-8-
Thermal conductivity 7-16-, 11-12-, 12-14-
Thermal diffusivity 12-12-
Thermal resistance 8-22-
Thickness 8-6-, 8-7-, 10-3-
Thin feature 8-6-, 8-9-, 9-11-, 10-3-
Three-dimensional flow 3-1-
Through all 9-6-, 9-10-
Time-dependent flow 3-19-, 3-22-, 12-16-
Tools 5-4-, 6-9-, 8-13-, 9-17-
Tools Add-Ins 3-9-
Index -8-An Introduction to SOLIDWORKS Flow Simulation 2019
Top plane 2-6-, 5-12-, 5-13-, 8-3-, 8-7-, 9-3-
Top view 9-22-
Total pressure drop 9-22-
Travel 1-4-
Tube bank 7-1-, 7-9-, 7-13-, 7-14-
Turbulence intensity 4-6-
Turbulence parameter 4-6-
Turbulent boundary layer 2-31-, 2-32-, 2-33-, 11-14-
Turbulent flow 6-1-, 11-16-
Turbulent layer 6-25-
Turbulent pipe flow 6-21-, 6-22-
Two-dimensional flow 3-1-
U
Units 3-25-
Up to next 9-4-, 9-11-
V
Value 9-21-, 12-18-
Valve angle 9-21-
Vectors 3-15-, 5-13-
Velocity 1-5-, 4-16-, 9-19-, 10-13-, 10-14-, 10-17-
Velocity defect law 6-25-
Velocity in X-direction 2-9-, 3-12-, 3-22-, 4-16-, 7-5-
Velocity in Y-direction 4-16-
Vena contracta 10-12-
Vertical plate 12-14-
Volume flowrate 1-5-, 10-12-
Vortex shedding 3-1-, 3-28-
View orientation 3-21-, 5-2-, 5-15-, 5-19-, 6-1-, 6-3-, 6-11-, 7-2-, 7-7-, 7-10-, 8-2-, 8-3-, 8-7-, 8-13-, 8-16-
, 9-2-, 9-3-, 9-6-, 9-10-, 9-12-, 9-13-, 9-16-, 9-19-, 10-2-, 10-4-, 10-5-, 10-7-, 10-8-, 10-11-
Viscous sublayer 6-25-
Visualization parameter 4-12-
Volume goals 1-5-
Vorticity 3-29-, 3-30-
W
Wall conditions 2-9-, 3-11-, 3-22-, 5-5-, 7-5-, 8-12-, 9-17-, 10-6-, 11-2-
Wall motion 1-7-, 5-20-
Wall normal coordinate 2-20-, 11-11-, 12-12-
Wall parameters 5-7-, 7-7-
Wall roughness 1-5-
Wall shear stress 6-20-
Wall temperature 1-2-, 1-5-, 7-7-, 12-3-, 12-12-
Water 5-5-, 5-18-, 8-12-, 10-6-, 11-14-
Wave length 5-14-
Wave number 5-14-, 5-25-
Wireframe 6-3-, 10-5-
Index -9-An Introduction to SOLIDWORKS Flow Simulation 2019
X X
-component of force 3-13-
X-component of shear force 2-33-
X-component of velocity 7-8-
X-velocity 2-14-, 2-31-, 2-32-, 3-29-, 6-15-, 6-22-, 6-25-, 7-10-, 7-11-
XY Plane 2-9-, 3-23-, 4-7-, 7-6-, 11-3-, 12-4-
XY Plots 2-18-, 2-23-, 2-31-, 2-32-, 4-14-, 6-16-, 6-22-, 7-11-, 10-14-, 10-16-, 11-9-, 11-10-, 11-17-, 12-
9-, 12-12-
Y Y
-velocity 12-9-
Z Zvelocity 5-13-, 10-11-, 10-16-, 10-17-, 10-18-
Zoom In/Out 3-22-, 4-8-
Zoom/Pan/Rotate 4-4-, 6-3-, 6-11-, 8-3-, 8-5-, 8-7-, 8-14-, 8-16-, 9-3-, 9-10-, 9-12-, 9-19-, 10-5-, 10-7-,
10-8-, 11-4-
Zoom to area 2-10-, 6-3-, 6-11-, 6-12-, 8-5-, 8-7-, 8-14-, 8-16-, 9-19-, 10-5-, 10-7-, 10-8-
Zoom to fit 2-2-, 4-4-, 6-12-, 8-3-, 9-3-, 9-10-, 9-12-
Index -10-


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