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Mathematical Modelsand
Numerical Methodsfor
Compressible Multicomponent FlowKeh-Ming Shyue
Department of Mathematics
National Taiwan University
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What is Multiphase Flow ?
General featuresExistence of more than one phase or component(fluid-like or not) in an underlying flow environmentseparated by interfaces
Problems of interestWave dynamics with interfaces
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Typical Multiphase Flow Patterns
Examples taken from Fundamentals of MultiphaseFlow, C. E. Brennen, Cambridge, 2005
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Typical Multiphase Flow Patterns
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Typical Multiphase Flow Patterns
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Typical Multiphase Flow Patterns
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 3/34
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Typical Multiphase Flow Patterns
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 3/34
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Typical Multiphase Flow Patterns
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 3/34
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Typical Multiphase Flow Patterns
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Solid Plate Impact
a) phi = 25 b) phi = 30
c) phi = 45 d) phi = 60
The collision of two aluminum plates inclined at an angle of phi degrees to one another. Only the plate on the right is shown,the left hand boundary is the line of impact. Color contours of density are shown: pale blue is vacuum, green is unshockedaluminum, and dark blue is jetted material. Note that the onset of jetting occurs between phi = 25 and phi = 30 degrees. Thesecomputations are of the experiments reported by J.M. Walsh, R.G. Shreffler and F.J. Willig in "Limiting Conditions for JetFormation in High Velocity Collisions", J. Appl. Phys. 24:349--359 (1953).
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Underwater Explosions
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Shock Wave in Bubbly FlowDensity
a)
Pressure
b)
c)
d)
e)
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Two-Phase Flow ModelSaurel & Gallouet (1998)
(α1ρ1)t + ∇ · (α1ρ1~u1) = m
(α1ρ1~u1)t + ∇ · (α1ρ1~u1 ⊗ ~u1) + ∇(α1p1) = p0∇α1 + m~u0 + Fd
(α1ρ1E1)t + ∇ · (α1ρ1E1~u1 + α1p1~u1) = p0 (α2)t + mE0 + Fd~u0 +Q0
(α2ρ2)t + ∇ · (α2ρ2~u2) = −m
(α2ρ2~u2)t + ∇ · (α2ρ2~u2 ⊗ ~u2) + ∇(α2p2) = p0∇α2 − m~u0 − Fd
(α2ρ2E2)t + ∇ · (α2ρ2E2~u2 + α2p2~u2) = −p0 (α2)t − mE0 − Fd~u0 −Q0
(α2)t + ~u0 · ∇α2 = µ (p2 − p1)
αk = Vk/V , pk = ρkRkTk, Ek = ek + ~u2
k/2 , for k = 1, 2
ρ =∑
k αkρk, p =∑
k αkpk
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Two-Phase Flow Model (Cont.)
Model is derived using averaging theory of Drew(Theory of Multicomponent Fluids, D.A. Drew & S. L.Passman, Springer, 1999)
Namely, introduce indicator function χk as
χk(M, t) =
{
1 if M belongs to the phase k0 otherwise
Denote < ψ > as volume averaged for flow variable ψ,
〈ψ〉 =1
V
∫
V
ψ dV
Gauss& Leibnitz rules
〈χk∇ψ〉 = 〈∇(χkψ)〉−〈ψ∇χk〉 & 〈χkψt〉 = 〈(χkψ)t〉−〈ψ(χk)t〉
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Two-Phase Flow Model (Cont.)
Take product of each balance law with χk, and performaveraging process. In case of mass conservation equation,for example, we have
〈χkρk〉t + ∇· < χkρk~uk >= 〈ρk(χk)t + ρk~uk · ∇χk〉
Since χk is governed by
(χk)t + ~u0 · ∇χk = 0,
yielding the averaged equation for mass
〈χkρk〉t + ∇· < χkρk~uk >= 〈ρk (~uk − ~u0) · ∇χk〉
Analogously, we may derive averaged equation formomentum, energy, & entropy (not shown here)
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Two-Phase Flow Model (Cont.)
In summary,
〈χk〉t + 〈~uk · ∇χk〉 = 〈(~uk − ~u0) · ∇χk〉
〈χkρk〉t + ∇· < χkρk~uk >= 〈ρk (~uk − ~u0) · ∇χk〉
〈χkρk~uk〉t + ∇· < χkρk~uk ⊗ ~uk > +∇〈χkpk〉 = 〈pk∇χk〉+
〈ρk~uk (~uk − ~u0) · ∇χk〉
〈χkρkEk〉t + ∇· < χkρkEk~uk + χkpk~uk >= 〈pk~uk · ∇χk〉+
〈ρkE (~uk − ~u0) · ∇χk〉
Note existence of various interfacial source terms, &modelling of these terms is essential and is a difficult issuesof multiphase flows
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Baer-Nunziato Two-Phase Flow ModelBaer & Nunziato (J. Multiphase Flow 1986)
(α1ρ1)t + ∇ · (α1ρ1~u1) = 0
(α1ρ1~u1)t + ∇ · (α1ρ1~u1 ⊗ ~u1) + ∇(α1p1) = p0∇α1 + λ(~u2 − ~u1)
(α1ρ1E1)t + ∇ · (α1ρ1E1~u1 + α1p1~u1) = p0 (α2)t + λ~u0 · (~u2 − ~u1)
(α2ρ2)t + ∇ · (α2ρ2~u2) = 0
(α2ρ2~u2)t + ∇ · (α2ρ2~u2 ⊗ ~u2) + ∇(α2p2) = p0∇α2 − λ(~u2 − ~u1)
(α2ρ2E2)t + ∇ · (α2ρ2E2~u2 + α2p2~u2) = −p0 (α2)t − λ~u0 · (~u2 − ~u1)
(α2)t + ~u0 · ∇α2 = µ (p2 − p1)
αk = Vk/V : volume fraction (α1 + α2 = 1), ρk: density,~uk: velocity, pk: pressure, Ek = ek + ~u2
k/2: specific totalenergy, ek: specific internal energy, k = 1, 2
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Baer-Nunziato Model (Cont.)
p0 & ~u0: interfacial pressure & velocity
Baer & Nunziato (1986)p0 = p2, ~u0 = ~u1
Saurel & Abgrall (1999)
p0 =∑
2
k=1αkpk, ~u0 =
∑
2
k=1αkρk~uk
/
∑
2
k=1αkρk
λ & µ (> 0): relaxation parameters that determine rates atwhich velocities and pressures of two phases reachequilibrium
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Mathematical Structure
Balance Laws with non-conservative products
Stiff relaxation term
Complicated Riemann problem solutions when themodel system is hyperbolic
Reduced model when λ→ 0, µ→ 0 or λ→ ∞, µ→ ∞ ispopular in practice
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Reduced Two-Phase Flow Model
Murrone & Guillard (JCP 2005)
Assume λ = λ′
/ε & µ = µ′
/ε, λ′
= O(1) & µ′
= O(1)
Use formal asymptotic analysis to show that whenε→ 0 leading order approximation of two-phase flowmodel takes
(α1ρ1)t + ∇ · (α1ρ1~u) = 0
(α2ρ2)t + ∇ · (α2ρ2~u) = 0
(ρ~u)t + ∇ · (ρ~u⊗ ~u) + ∇p = 0
(ρE)t + ∇ · (ρE~u+ p~u) = 0
(α2)t + ~u · ∇α2 = α1α2
(
ρ1c21− ρ2c
22
∑
2
k=1αkρkc
2
k
)
∇ · ~u
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Reduced Two-Phase Flow Model (Cont.)
Some remarks about the reduced model:
1. It can be shown entropy of each phase Sk now satisfies
DSk
Dt=∂Sk
∂t+ ~u · ∇Sk = 0, for k = 1, 2
2. Since product α1α2 is expected to be small, Shyue (JCP1998), Allaire, Clerc, & Kokh (JCP 2002) proposed touse
(α2)t + ~u · ∇α2 = 0
and now phase entropies satisfy(
∂p1
∂S1
)
ρ1
DS1
Dt−
(
∂p2
∂S2
)
ρ2
DS2
Dt=(
ρ1c2
1 − ρ2c2
2
)
∇ · ~u
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Reduced Two-Phase Flow Model (Cont.)
3. Equation of State: p = p(α2, α1ρ1, α2ρ2, ρe)
4. Isobaric Closure: p1 = p2 = p
For a class of EOS, explicit formula for p is available(examples are given next)For complex EOS, from (α2, ρ1, ρ2, ρe) in modelequations we recover p by solving
p1(ρ1, ρ1e1) = p2(ρ2, ρ2e2)
2∑
k=1
αkρkek = ρe
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Reduced Two-Phase Flow Model (Cont.)
Polytropic Ideal Gas: pk = (γk − 1)ρkek
ρe =
2∑
k=1
αkρkek =
2∑
k=1
αkp
γk − 1=⇒ p = ρe
/ 2∑
k=1
αk
γk − 1
van der Waals Gas: pk = ( γk−1
1−bkρk)(ρkek + akρ
2
k) − akρ2
k
ρe =2∑
k=1
αkρkek =2∑
k=1
αk
[(
1 − bkρk
γk − 1
)
(p+ akρ2
k) − akρ2
k
]
=⇒
p =
[
ρe−
2∑
k=1
αk
(
1 − bkρk
γk − 1− 1
)
akρ2
k
]
/ 2∑
k=1
αk
(
1 − bkρk
γk − 1
)
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Reduced Two-Phase Flow Model (Cont.)
Two-Molecular Vibrating Gas: pk = ρkRkT (ek), Tsatisfies
e =RT
γ − 1+
RTvibexp
(
Tvib/T)
− 1
As before, we now have
ρe =2∑
k=1
αkρkek =2∑
k=1
αk
(
ρkRkTk
γk − 1
)
+ρkRkTvib,k
exp(
Tvib,k/Tk
)
− 1
=2∑
k=1
αk
(
p
γk − 1
)
+pvib,k
exp(
pvib,k/p)
− 1
(Nonlinear)
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Reduced Two-Phase Flow Model (Cont.)
5. Model system is hyperbolic under suitablethermodynamic stability condition (see below)
6. It is easy to write the model system in unifiedcoordinates
7. In the model α2 6= 0 or 1, otherwise, either ρ2 or ρ1 is notable to recover from α2ρ2 or α1ρ1
8. This formulation of model equation would not workwhen one fluid component is adiabatic, but the otherfluid component is not
9. Surely, there are other set of model systems proposedin the literature that are valid in this relaxation limit
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Thermodynamic Stability
Fundamental derivative of gas dynamics
G = −V
2
(∂2p/∂V 2)S(∂p/∂V )S
, S : specific entropy
Assume fluid state satisfy G > 0 for thermodynamicstability, i.e.,
(∂2p/∂V 2)S > 0 & (∂p/∂V )S < 0
(∂2p/∂V 2)S > 0 means convex EOS
(∂p/∂V )S < 0 means real speed of sound, for
c2 =
(
∂p
∂ρ
)
S
= −V 2
(
∂p
∂V
)
S
> 0
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Thermodynamic Stability (Cont.)
When G ≤ 0, there exist nonclassical nonlinear wave &phase transition (active research area)
0.5 1 1.5 2 2.5 30.6
0.7
0.8
0.9
1
1.1
1.2
G = 0
G < 0
Saturation Curve
Liquid−Vapor Coexistence Region
G > 0
C
T = 1
T > 1
Vapor Region LiquidRegion p/
p c
V/VcWorkshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 21/34
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Basic Numerical Approaches
Method Based on Eulerian GridDiffuse-interface typeSharp-interface type
Method Based on Lagrangian Grid
Method Based on Unified CoordinatesDiffuse-interface typeSharp-interface type
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Benchmark Test: Interface Only
Initial Condition
ρ
u
p
γ
L
=
1
1
1
1.4
&
ρ
u
p
γ
R
=
0.125
1
1
1.2
Exact Solution
ρ
u
p
γ
(x, t) =
ρ0(x− t)
1
1
γ0(x− t)
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Benchm
arkTest
(Cont.)
Eulerian
Grid
Com
putations:F
irstorderresults
2.5 4.0 5.5
2.5 4.0 5.5
2.5 4.0 5.5
2.5 4.0 5.5
1.0 1.2
1.0 1.2
1.0 1.2
1.0 1.2
1.00 1.06
1.00 1.06
1.00 1.06
1.00 1.060.0
0.40.8
1.20 1.30 1.40
0.00.4
0.8
1.20 1.30 1.40
0.00.4
0.8
1.20 1.30 1.40
0.00.4
0.81.20 1.30 1.40
ργ
ρ/(γ
−1)
γ1/(γ
−1)
xx
xx
ρe
ρe
ρe
ρe
u
u
u
u
p
p
p
p
γ
γ
γ
γ
Workshop
onC
FD
basedon
Unified
Coordinates–
Theory
&A
pplications,Feb.
24-25,2006–
p.24/34
![Page 31: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/31.jpg)
Benchm
arkTest
(Cont.)
Eulerian
Grid
Com
putations:H
ighresolution
results2.5 4.0 5.5
2.5 4.0 5.5
2.5 4.0 5.5
2.5 4.0 5.5
0.95 1.10 1.25
0.95 1.10 1.25
0.95 1.10 1.25
0.95 1.10 1.25
1.00 1.06
1.00 1.06
1.00 1.06
1.00 1.060.0
0.40.8
1.20 1.30 1.40
0.00.4
0.8
1.20 1.30 1.40
0.00.4
0.8
1.20 1.30 1.40
0.00.4
0.81.20 1.30 1.40
ργ
ρ/(γ
−1)
γ1/(γ
−1)
xx
xx
ρe
ρe
ρe
ρe
u
u
u
u
p
p
p
p
γ
γ
γ
γ
Workshop
onC
FD
basedon
Unified
Coordinates–
Theory
&A
pplications,Feb.
24-25,2006–
p.25/34
![Page 32: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/32.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 33: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/33.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 34: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/34.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 35: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/35.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 36: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/36.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 37: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/37.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 38: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/38.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 39: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/39.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 40: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/40.jpg)
Benchmark Test: Shock-Bubble Interaction
Eulerian Grid Computations: Density schlieren images
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 26/34
![Page 41: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/41.jpg)
Shock-Bubble Interaction (cont.)
Approximate locations of interfaces
time=55µs
airR22
time=115µs time=135µs
time=187µs time=247µs time=200µs
time=342µs time=417µs time=1020µs
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 27/34
![Page 42: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/42.jpg)
Shock-Bubble Interaction (cont.)
Comparison of the computed velocities obtained usingour tracking and non-tracking algorithms with thosereported in the literature
Velocity (m/s) Vs VR VT Vui Vuf Vdi Vdf
Haas & Sturtevant 415 240 540 73 90 78 78
Quirk & Karni 420 254 560 74 90 116 82
Our result (tracking) 411 243 538 64 87 82 60
Our result (capturing) 411 244 534 65 86 98 76
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 28/34
![Page 43: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/43.jpg)
Shock-Bubble Interaction 3DEulerian Grid Computations
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 29/34
![Page 44: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/44.jpg)
Shock-Bubble Interaction (cont.)
Because of the complication in topological structure ofinterface, it is not clear how to impose the condition
DQη
Dt= 0
in unified coordinates
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 30/34
![Page 45: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/45.jpg)
Supersonic NACA0012 over Heavier Gas
Unified Coordinates Computations
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Grid system
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Density
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Pressure
a)
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 31/34
![Page 46: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/46.jpg)
Supersonic NACA0012 over Heavier Gas
Unified Coordinates Computations
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Grid system
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Density
SF6
air
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Pressure
b)
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 31/34
![Page 47: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/47.jpg)
Supersonic NACA0012 over Heavier Gas
Unified Coordinates Computations
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Grid system
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Density
SF6
air
c)
0 1 2 3−1.5
−1
−0.5
0
0.5
1
1.5Pressure
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 31/34
![Page 48: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/48.jpg)
Supersonic NACA0012 over Heavier Gas
Eulerian Grid Computations
Grid system
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 32/34
![Page 49: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/49.jpg)
Supersonic NACA0012 over Heavier Gas
Eulerian Grid Computations
t = 0.4
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 32/34
![Page 50: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/50.jpg)
Supersonic NACA0012 over Heavier Gas
Eulerian Grid Computations
t = 0.8
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 32/34
![Page 51: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/51.jpg)
Supersonic NACA0012 over Heavier Gas
Eulerian Grid Computations
t = 1.2
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 32/34
![Page 52: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/52.jpg)
Supersonic NACA0012 over Heavier Gas
Eulerian Grid Computations
t = 1.6
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 32/34
![Page 53: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/53.jpg)
Supersonic NACA0012 over Heavier Gas
Eulerian Grid Computations
t = 2
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 32/34
![Page 54: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/54.jpg)
2 Phase Shock over Cylinder
Eulerian Grid Computations
Grid system
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 33/34
![Page 55: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/55.jpg)
2 Phase Shock over Cylinder
Eulerian Grid Computations
t = 0.3
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 33/34
![Page 56: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/56.jpg)
2 Phase Shock over Cylinder
Eulerian Grid Computations
t = 0.6
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 33/34
![Page 57: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/57.jpg)
2 Phase Shock over Cylinder
Eulerian Grid Computations
t = 0.9
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 33/34
![Page 58: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/58.jpg)
2 Phase Shock over Cylinder
Eulerian Grid Computations
t = 1.2
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 33/34
![Page 59: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/59.jpg)
2 Phase Shock over Cylinder
Eulerian Grid Computations
t = 1.5
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 33/34
![Page 60: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/60.jpg)
Final Remarks
Potential use of unified coordinates approach in multiphaseflow problems are:
Simple topological structure of interfaces
Existence of (fixed or moving) boundaryUse as a body-fitted grid generation toolUse in a space-marching (flow-generated grid)computations
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 34/34
![Page 61: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/61.jpg)
Final Remarks
Potential use of unified coordinates approach in multiphaseflow problems are:
Simple topological structure of interfaces
Existence of (fixed or moving) boundaryUse as a body-fitted grid generation toolUse in a space-marching (flow-generated grid)computations
I am currently writting a unified coordinates code with thestate-of-the-art numerical method included in 2D. The codewill be put in the public domain, when it is done.
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 34/34
![Page 62: Mathematical Models and Numerical Methods for Compressible ...shyue/mytalks/ucs06.pdf · Numerical Methods for Compressible Multicomponent Flow Keh-Ming Shyue Department of Mathematics](https://reader033.vdocuments.mx/reader033/viewer/2022050315/5f778f7cdc1cae1b590b8300/html5/thumbnails/62.jpg)
Thank You
Workshop on CFD based on Unified Coordinates– Theory & Applications, Feb. 24-25, 2006 – p. 35/34