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Introduction to SOLIDWORKS Flow Simulation 2020 [Pehme köide]

  • Formaat: Paperback / softback, 350 pages, kõrgus x laius: 280x210 mm, kaal: 778 g
  • Ilmumisaeg: 17-Mar-2020
  • Kirjastus: SDC Publications
  • ISBN-10: 1630573272
  • ISBN-13: 9781630573270
Teised raamatud teemal:
Introduction to SOLIDWORKS Flow Simulation 2020Suurem pilt
  • Formaat: Paperback / softback, 350 pages, kõrgus x laius: 280x210 mm, kaal: 778 g
  • Ilmumisaeg: 17-Mar-2020
  • Kirjastus: SDC Publications
  • ISBN-10: 1630573272
  • ISBN-13: 9781630573270
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781630573270.html
Märksõnad:

An Introduction to SOLIDWORKS Flow Simulation 2020 takes you through the steps of creating the SOLIDWORKS part for the simulation followed by the setup and calculation of the SOLIDWORKS Flow Simulation project. The results from calculations are visualized and compared with theoretical solutions and empirical data.

Chapter 1 Introduction
13(8)
A SOLIDWORKS® Flow Simulation
13(1)
B Project
14(1)
C Meshing
14(2)
D Calculation Control Options
16(1)
E Boundary Conditions
16(1)
F Goals
17(2)
G Results
19(1)
H Limitations
19(1)
I References
19(2)
Chapter 2 Flat Plate Boundary Layer
21(36)
A Objectives
21(1)
B Problem Description
21(1)
C Creating the SOLIDWORKS Part
22(6)
D Setting Up the Flow Simulation Project
28(3)
E Selecting Boundary Conditions
31(3)
F Inserting Global Goals and Calculation Controls
34(2)
G Running the Calculations
36(2)
H Using Cut Plots to Visualize the Flow Field
38(1)
I Using XY Plots with Templates
39(2)
J Comparison of Flow Simulation Results with Theory and Empirical Data
41(3)
K Cloning of the Project
44(9)
L References
53(1)
M Exercises
53(4)
Chapter 3 Flow Past A Sphere And A Cylinder
57(30)
A Objectives
57(1)
B Problem Description
57(1)
C Creating the SOLIDWORKS Part for the Sphere
58(6)
D Setting Up the Flow Simulation Project for the Sphere
64(2)
E Inserting Global Goal for Calculations
66(2)
F Running the Calculations
68(1)
G Using Cut Plots
69(1)
H Inserting Surface Parameters
70(1)
I Theory
71(1)
J Cloning of the Project
71(1)
K Time-Dependent Calculations
72(2)
L Creating SOLIDWORKS Part for Cylinder
74(1)
M Setting Up Flow Simulation Project for Cylinder
75(1)
N Inserting Global Goals for Calculations and Selecting 2D Flow
76(1)
0 Tabular Saving
77(1)
P Running Calculations for Cylinder
78(1)
Q Using Excel for Frequency Analysis
79(1)
R Inserting XY Plots
80(2)
S Strouhal number
82(1)
T Inserting Cut Plots
82(2)
U References
84(1)
V Exercises
84(3)
Chapter 4 Flow Past An Airfoil
87(26)
A Objectives
87(1)
B Problem Description
87(1)
C Creating the SOLIDWORKS Part
88(4)
D Setting Up Flow Simulation Project
92(3)
E Inserting Global Goals
95(1)
F Inserting Equation Goals
95(1)
G Global and Local Mesh
96(1)
H Running Simulations
97(3)
I Using Cut Plots
100(2)
J Theory
102(1)
K Creating a Custom Visualization Parameter
103(4)
L Cloning of Project
107(1)
M Creating a Batch Run
108(4)
N Reference
112(1)
O Exercises
112(1)
Chapter 5 Rayleigh-Benard Convection & Taylor-Couette Flow
A Objectives
113(1)
B Problem Description
113(1)
C Creating the SOLIDWORKS Part for Rayleigh-Benard Convection
114(2)
D Setting Up Flow Simulation Project for Rayleigh-Benard Convection
116(2)
E Creating Lids
118(1)
F Boundary Conditions for Rayleigh-Benard Convection
119(2)
G Setting Up 2D Flow
121(1)
H Global Goal for Rayleigh-Benard Convection
122(1)
I Running Calculations
122(2)
J Inserting Cut-Plots
124(2)
K Comparison with Neutral Stability Theory
126(1)
L Creating SOLIDWORKS Part for Taylor-Couette Flow
127(2)
M Flow Simulation Project for Taylor-Couette Flow
129(2)
N Boundary Conditions for Taylor-Couette Flow
131(1)
0 Global Goal and Simulations for Taylor-Couette Flow
132(1)
P Inserting Surface Plots
133(2)
Q Comparison with Neutral-Stability Theory
135(1)
R References
136(1)
S Exercises
136(1)
Chapter 6 Pipe flow
137(26)
A Objectives
137(1)
B Problem Description
137(1)
C Creating the SOLIDWORKS Part
138(3)
D Flow Simulation Project
141(2)
E Lids for the Pipe
143(1)
F Computational Domain and Mesh
144(2)
G Boundary Conditions
146(3)
H Global Goal and Calculation Control Options
149(1)
I Flow Simulations for Laminar Pipe Flow
150(1)
J Inserting Cut Plots
151(1)
K Inserting XY Plots for Laminar Pipe Flow Using Templates
152(3)
L Theory for Laminar Pipe flow
155(1)
M Flow Simulations for Turbulent Pipe Flow
156(1)
N Theory for Turbulent Pipe Flow
157(1)
O XY Plots for Turbulent Pipe Flow Using Templates
158(3)
P References
161(1)
Q Exercises
161(2)
Chapter 7 Flow Across A Tube Bank
163(16)
A Objectives
163(1)
B Problem Description
163(1)
C Creating a SOLIDWORKS Part
164(1)
D Flow Simulation Project
165(2)
E Computational Domain and Mesh
167(1)
F Boundary Conditions
168(1)
G Global Goals
169(1)
H Flow Simulations for Tube Bank Flow
169(1)
I Inserting Cut Plots
170(1)
J Sketches for XY Plots
171(3)
K Theory and Empirical Data
174(2)
L References
176(1)
M Exercises
177(2)
Chapter 8 Heat Exchanger
179(22)
A Objectives
179(1)
B Problem Description
179(1)
C Creating the SOLIDWORKS Part
180(8)
D Flow Simulation Project
188(2)
E Creating Lids
190(1)
F Boundary Conditions
191(2)
G Inserting Goals
193(1)
H Simulations for Heat Exchanger
194(1)
I Surface Parameters
195(1)
J Cut-Plots
196(1)
K Theory for Effectiveness-NTU Method
197(2)
L References
199(1)
M Exercises
200(1)
Chapter 9 Ball Valve
201(22)
A Objectives
201(1)
B Problem Description
201(1)
C Creating the Ball Valve
202(6)
D Ball Valve Housing and Pipe Sections
208(4)
E Ball Valve and Pipe Assembly
212(3)
F Flow Simulation Project for Ball Valve
215(1)
G Creating Lids, Maximum Gap Size and Number of Cells
216(1)
H Boundary Conditions
217(1)
I Goals
218(1)
J Simulation for Ball Valve
219(1)
K Cut-Plots
220(1)
L Hydraulic Resistance
220(2)
M References and Exercises
222(1)
Chapter 10 Orifice Plate And Flow Nozzle
223(20)
A Objectives
223(1)
B Problem Description
223(1)
C Modeling an Orifice Plate in a Pipe
224(4)
D Flow Simulation Project for Orifice Plate
228(1)
E Boundary Conditions
229(2)
F Goals
231(1)
G Flow Simulation for Orifice Plate
232(1)
H Cut-Plots for Orifice Plate
233(1)
I Discharge Coefficient, XY Plots and Flow Trajectories for Orifice Plate
234(5)
J Simulation and Discharge Coefficient for Long Radius Nozzle
239(2)
K References
241(1)
L Exercises
242(1)
Chapter 11 Thermal Boundary Layer
243(18)
A Objectives
243(1)
B Problem Description
243(1)
C Flow Simulation Project
243(3)
D Boundary Conditions
246(3)
E Goals and Calculation Controls
249(1)
F Simulation for Low Reynolds Number
250(1)
G Cut-Plots
251(1)
H Plotting Temperature Profiles Using Templates
252(2)
I Theory
254(1)
J Plotting Non-Dimensional Temperature Profiles Using Templates
254(1)
K Plotting Local Nusselt Number Using Templates
255(1)
L Simulations at a Higher Reynolds Number
256(3)
M References
259(1)
N Exercise
259(2)
Chapter 12 Free Convection On A Vertical Plate And A Horizontal Cylinder
261(20)
A Objectives
261(1)
B Problem Description
261(1)
C Flow Simulation Project
262(3)
D Goals and Calculation Controls
265(1)
E Running Simulations for Vertical Plate
265(1)
F Cut-Plots for Vertical Wall
266(1)
G Plotting Temperature and Velocity Profiles Using Templates
267(2)
H Theory
269(1)
I Plotting Non-Dimensional Temperature and Velocity Profdes Using Templates
270(2)
J Plotting Local Nusselt Number Using Templates
272(1)
K Creating SOLIDWORKS Part for Free Convection from Horizontal Cylinder
272(1)
L Flow Simulation Project for Free Convection from Horizontal Cylinder
273(1)
M Global Goal and 2D Flow for Free Convection from Horizontal Cylinder
274(1)
N Tabular Saving for Free Convection from Horizontal Cylinder
275(1)
O Boundary Condition for Free Convection from Horizontal Cylinder
276(1)
P Simulations for Free Convection from Horizontal Cylinder
277(1)
Q Cut-Plots for Free Convection from Horizontal Cylinder
278(1)
R References
278(1)
S Exercises
279(2)
Chapter 13 Swirling Flow In A Closed Cylindrical Container
281(10)
A Objectives
281(1)
B Problem Description
281(1)
C Modeling SOLIDWORKS Part
282(1)
D Flow Simulation Project
283(2)
E Modeling Lids
285(1)
F Boundary Conditions
286(1)
G Global Goals
287(1)
H Running Simulations
287(2)
I Flow Trajectories
289(1)
J Theory
290(1)
K References
290(1)
L Exercise
290(1)
Chapter 14 Flow Past A Model Rocket
291(18)
A Objectives
291(1)
B Problem Description
291(1)
C Modeling the SOLIDWORKS Parts
291(6)
D Flow Simulation Project
297(1)
E Computational Domain
298(1)
F Goals
299(1)
G Global Mesh
299(1)
H Local Mesh
300(1)
I Running Simulations
301(3)
J Cut-Plots
304(1)
K Theory
304(3)
L References
307(1)
M Exercises
307(2)
Chapter 15 Draining Of A Cylindrical Tank
309(16)
A Objectives
309(1)
B Problem Description
309(1)
C Modeling the SOLIDWORKS Parts
310(3)
D Flow Simulation Project
313(2)
E Computational Domain, Initial Condition and Boundary Conditions
315(2)
F Goal, Global Mesh and Calculation Control Options
317(1)
G Running the Flow Simulation
318(1)
H Goals Plots
319(1)
I Transient Explorer
320(1)
J Theory
321(1)
K References
322(1)
L Exercises
323(2)
Index 325