HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc...
Transcript of HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc...
![Page 1: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/1.jpg)
Plasma Arc Welding Simulation with OpenFOAM
MARGARITA SASS-TISOVSKAYA
Supervisor : Isabelle Choquet, Co-supervisor : Håkan Nilsson*Examiner : Lars Davidson*
Dept. of Engineering ScienceHögskolan Väst
*Dept. of Applied Mechanics, Chalmers University of Technology
Licentiate : 17 December 2009
Volvo Construction Equipment
HÖGSKOLAN VÄST
![Page 2: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/2.jpg)
Outline:
Introduction and motivation
Problem description and main assumptions
Mathematical model
Implementation
Results and discussions
Summary and future work
![Page 3: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/3.jpg)
Introduction:
Glowdischarge
Arc discharge
V (Volt)
I (Ampere)
500
1010− 510− 1 100
10
![Page 4: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/4.jpg)
Motivation: tandem arc welding
Figure : Tandem arc welding in operation (ESAB)
Two heat sources
High deposition efficiency
Stability issue
Extreme operating conditions
Difficult experimental investigation
Need for numerical simulations
![Page 5: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/5.jpg)
Aim of this study:
Develop a 3D simulation tool valid within the frame of tandem arcs.
Methodology used:
Implementation in the open-source CFD software OpenFOAM Well documented welding arc test case:
single arc Tungsten Inert Gas (TIG) welding
![Page 6: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/6.jpg)
Outline:
Introduction and motivation
Problem description and main assumptions
Mathematical model
Implementation
Results and discussions
Summary and future work
![Page 7: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/7.jpg)
Problem description: Tungsten Inert Gas welding
CER
AM
IC N
OZZLE
CER
AM
IC N
OZZLE
ARC
SHIELDINGGAS
ANODE
CATHODE
![Page 8: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/8.jpg)
Problem description: arc plasma flow
Newtonian fluid, laminar and incompressible
Thermally expansible fluid
Local thermodynamic equilibrium (LTE) , Te=Th.
Negligible heat dissipation due to viscous effects
Optically thin media, i.e. no radiative absorption
Local electrical neutrality
Steady electromagnetic phenomena
Negligible magnetic convection compared to the magnetic diffusion
![Page 9: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/9.jpg)
Outline:
Introduction and motivation
Problem description and main assumptions
Mathematical model
Implementation
Results and discussions
Summary and future work
![Page 10: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/10.jpg)
Governing equations: thermal fluid
Continuity equation
Where is the density and is the velocity.)(Tρρ = U
( ) 0=⋅∇+∂∂ U
tρρ
Momentum equations
where is the effective viscosity
( ) ( ) ( ) Bjp=IUμU+UμUUUt
T ×+∇−
⋅∇−∇∇⋅∇−⋅∇+
∂∂
32)(ρρ
)(Tµµ =
Viscous friction for Newtonian fluidLorenz Force
Enthalpy equation
( ) er S+SEj+pU=hαhρUht
−⋅∇⋅∇⋅∇−⋅∇+∂∂ )(ρ
Joule heating
Radiation loss
Transport of electron enthalpy
![Page 11: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/11.jpg)
Governing equations: electromagnetism
Electric potential equation
is the electric potential, is the electric conductivity
Magnetic potential equation
where is permeability of vacuum, the magnetic potential vector
( ) 0=φσ∇⋅∇
φσμ=A 0∇∇2
0µ
ϕ
A
)(Tσσ =
![Page 12: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/12.jpg)
Governing equations
The magnetic field can be derived in 2 ways: B
1st : for general 3D case
2nd : only for axisymmetric case
AB ×∇= where magnetic potential vectorA
xjrB
0µ−=∂∂ Θ where a cylindrical coordinate system is used ),,( xr Θ
No need to solve the magnetic potential equation
![Page 13: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/13.jpg)
Outline:
Introduction and motivation
Problem description and main assumptions
Mathematical model
Implementation
Results and discussions
Summary and future work
![Page 14: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/14.jpg)
buoyantSimpleFoam solver
The buoyantSimpleFoam solver is a standard, steady-state solver for buoyant, turbulent flow of compressible fluids used for ventilation and heat transfer.
arcFoam solver
The simulation tool developed for arc welding problem
![Page 15: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/15.jpg)
Continuity equation:
)(Tρρ =
( ) 0=⋅∇+∂∂ U
tρρ
Governing equations
( ) 0=ρU⋅∇
buoyantSimpleFOAM solver arcFOAM solver
ρ= pRTwhere where
![Page 16: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/16.jpg)
Momentum equations :
Governing equations
buoyantSimpleFOAM solver arcFOAM solver
( )
( ) ( ) Bjp=IUμU+Uμ
UUUt
T ×+∇−
⋅∇−∇∇⋅∇
−⋅∇+∂∂
32
)(ρρ
( ) ( ) p=IUμU+Uμ
UU
T −∇
⋅∇−∇∇⋅∇
−⋅∇
32
)(ρ
![Page 17: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/17.jpg)
Enthalpy equation:
Governing equations
buoyantSimpleFOAM solverarcFOAM solver
( )
er S+SEj+pU=
hαhρUht
−⋅∇⋅
∇⋅∇−⋅∇+∂∂ )(ρ( ) pU=hαhρU ∇⋅∇⋅∇−⋅∇
pCρκα =where
pCρκα =where
![Page 18: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/18.jpg)
buoyantSimpleFOAM solver arcFOAM solver
Governing equations
( ) 0=φσ∇⋅∇
φσμ=A 0∇∇2
Electric potential and magnetic potential equations:
![Page 19: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/19.jpg)
Outline:
Introduction and motivation
Problem description and main assumptions
Mathematical model
Implementation
Results and discussions
Electromagnetic test case
TIG test case
Summary and future work
![Page 20: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/20.jpg)
Validation of the electromagnetic part
( ) 0=φσ∇⋅∇
φσμ=A 0∇∇2
Figure: Electric rod
I
][51 11 −− Ω−= meσ
][2700 11 −− Ω= mσ
Governing equations
![Page 21: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/21.jpg)
Validation of the electromagnetic part
0=∂∂
nA
0=∂∂
nϕ
707=ϕFigure: Computational domain
0=A
0=ϕ
Elsewhere B.C.:
Boundary conditions
![Page 22: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/22.jpg)
Validation of the results [T
esla
m] I
x
R
![Page 23: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/23.jpg)
Validation of the results
ΘB
[Tesla]
![Page 24: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/24.jpg)
A0
B0
B1
B4B3
B2
A1A2
A4
A3
Block 0
Block 1
Test of boundary conditions
Rtop
Rside
Case 1: 0=A Case 2: at Rtop0=A
Case 3: at Rside0=A
Case 4: 0=AB0
![Page 25: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/25.jpg)
Validation of the results [T
esla
m] 0=A Case 4:
Case 3: at Rside0=A
Others
![Page 26: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/26.jpg)
Validation of the results [T
esla
]
0=A Case 4:
Case 3: at Rside0=A
Case 3: at Rside0=A
0=A Case 4:
Others
ΘB
[Tesla]
![Page 27: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/27.jpg)
Conclusion on the rod test cases
Test with a known solution:
Analytical solution for magnetic potential vector and magnetic field are available
good agreement between the numerical and analytical solutions
Tests on various boundary conditions for the magnetic potentials:
4 boundary conditions were tested
boundary condition of case 1 retained for TIG test case
![Page 28: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/28.jpg)
Outline:
Introduction and motivation
Problem description and main assumptions
Mathematical model
Implementation
Results and discussions
Electromagnetic test case
TIG test case
Summary and future work
![Page 29: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/29.jpg)
TIG test case:
Anode surface is considered to be flat
Axi-symmetric geometry
Argon shielding gas
200 A electric current
![Page 30: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/30.jpg)
TIG test case:
Cathode tip at 20 000K
Linear temperature distribution on cathode sides
anode surface temperature distribution set using experimental measurements
Boundary conditions
![Page 31: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/31.jpg)
Results. Velocity vectors without electromagnetism
2.9 m/s
![Page 32: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/32.jpg)
ANODE
Results. Velocity vectors with electromagnetic
70 m/s 160 m/s
AB ×∇=xjr
B0µ−=∂
∂ Θ
![Page 33: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/33.jpg)
Results. Velocity evaluated along the symmetry axis for both cases.
AB ×∇=
xjrB
0µ−=∂∂ Θ
x
Case 1:
Case 2:
![Page 34: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/34.jpg)
Results. Radial distribution of the x-velocity for both cases evaluated x=1 mm.
xjrB
0µ−=∂∂ Θ
AB ×∇=
yX=1
Case 1:
Case 2:
![Page 35: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/35.jpg)
Results. Temperature profile
From large radius to small radius, the isotherms correspond to 10000,
12000, 14000, 16000, 18000, 20000 and 22000 K.
AB ×∇= xjrB
0µ−=∂∂ Θ
![Page 36: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/36.jpg)
Conclusion on TIG test case
Two methods have been tested for computing the magnetic field
based on the electric potential (2D½)
based on the magnetic potentials (3D)
Qualitatively, similar behavior was observed:
bell-shaped temperature profile
high velocity plasma jet
Quantitative analysis showed a visible disagreement
50% difference in the maximum velocity value
different distributions of the isotherms
Method based on the electric potential yields better agreement with the results found in the literature
![Page 37: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/37.jpg)
Conclusion:
The electromagnetic part of the simulation tool:
Tested separately using a problem with a known analytical solution.
Tests of various boundary conditions for the electromagnetic potential have been done.
A simulation tool that is valid within the field of tandem arc welding:
Fully three dimensional tool
Coupled thermal fluid flow and electromagnetic fields
Includes thermodynamic properties suited to a plasma arc
The complete simulation tool :
A tungsten inert gas single arc problem (TIG)
Two methods for computing the magnetic field have been tested
![Page 38: HÖGSKOLAN VÄST Plasma A rc Welding Simulation …hani/pdf_files/MargaritaLic.pdfPlasma A rc Welding Simulation with OpenFOAM. ... Local thermodynamic equilibrium (LTE) , Te=Th. ...](https://reader030.fdocuments.in/reader030/viewer/2022021504/5aab6f487f8b9a2e088bcca7/html5/thumbnails/38.jpg)
Future work :
Investigation of the disagreement in the results for two representations of the magnetic field.
Supplement for tandem arc welding:
Implement thermophysical data tables for CO2
Test case with tilted cathode geometry
Implement heat and electromagnetic equations inside the electrodes
Introduce the dynamics of the droplet and welding pool