Tsuji Lecture 9
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Transcript of Tsuji Lecture 9
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particle-wall colllision
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Particle - wall interaction
Particle - wall interaction
lift force,
lubrication
collision (massive particle)
van der Waals force (small particle)
Mechanical interaction
Hydrodynamic interaction
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Particle - wall collision
Particle - wall collision
( )ω 2
( ) ( ) ( ) ( )( )r
V V V V X Y Z
2 2 2 2= , ,
x
y
z
1) Particle deformation is neglected so, throughout the collision process, the
distance between the particle center of mass and the contact point is constant and
equal to the particle radius.
2) Coulomb’s friction law applies to particles sliding along the wall.
3) Once a particle stops sliding, there is no further sliding.
Assumptions
( )ω 0
( ) ( ) ( ) ( )( )r
V V V V X Y Z
0 0 0 0= , ,
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( )2Ω
( ) ( ) ( ) ( )2222 , , Z Y X vvvv =r
x
y
z
( )0Ω
( ) ( ) ( ) ( )0000 , , Z Y X vvvv =r
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Case I : the particle stops sliding in the compression period
Case II : the particle stops sliding in the recovery period
Case III : the particle continues to slide throughout the
compression and recovery period
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sliding period
Post-collision
Pre-collision
Compression period (1) Recovery period (2)
Impulse( )
r
J s ( )
r
J r ( )
r
J 2
Trans.
velocity ( )r
V 0 ( )r
V s ( )r
V 1 ( )r
V 2
Angular.
velocity( )r
ω 0 ( )r
ω s ( )r
ω 1 ( )r
ω 2
( ) ( ) ( )r r r
J J J s r 1 = +
Case I : the particle stops sliding in the compression period
m V V J s s( )( ) ( ) ( )
r r r
− =0 m V V J s r ( )( ) ( ) ( )
r r r
1 − = m V V J ( )( ) ( ) ( )r r r
2 1 2− =
I r J s s
( )( ) ( ) ( )r r r
r
ω ω − = − ×0 I r J s r ( )( ) ( ) ( )r r r
r
ω ω 1 − = − × I r J ( )( ) ( )) ( )r r r
r
ω ω 2 1 2− = − ×
Impulsive equations :
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Case II : the particle stops sliding in the recovery period
Impulse ( )r
J 1 ( )
r
J s ( )
r
J r
( ) ( ) ( )r r r
J J J s r 2 = +
sliding period
Post-
collision
Pre-
collisionCompression period (1) Recovery period (2)
Angular.
velocity( )r
ω 0 ( )r
ω 1 ( )r
ω s ( )r
ω 2
Trans.
velocity( )
r
V 0 ( )
r
V 1 ( )
r
V s ( )
r
V 2
m V V J ( )( ) ( ) ( )r r r
1 0 1− = m V V J s r ( )( ) ( ) ( )r r r
2 − =
I r J ( )( ) ( ) ( )r r r
r
ω ω 1 0 1− = − ×
m V V J s s( )( ) ( ) ( )
r r r
− =1
I r J s s( )( ) ( ) ( )r r r
r
ω ω − = − ×1 I r J s r ( )( ) ( )) ( )r r r
r
ω ω 2 − = − ×
Impulsive equations :
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Post-
collision
Pre-
collisionCompression period (1) Recovery period (2)
Impulse ( )r
J 1 ( )
r
J 2
Trans.
velocity( )
r
V 0 ( )
r
V 1 ( )
r
V 2
Angular.
velocity
( )r
ω 0 ( )r
ω 1 ( )r
ω 2
Impulsive equations :
m V V J ( )( ) ( ) ( )r r r
1 0 1− = m V V J ( )( ) ( ) ( )r r r
2 1 2− =
I r J ( )( ) ( ) ( )r r r
r
ω ω 1 0 1− = − × I r J ( )( ) ( ) ( )r r r
r
ω ω 2 1 2− = − ×
Case III : the particle continues to slide throughout the
compression and recovery period
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particle mass m a p= ( / )3 4 3π ρ
( )moment of inertia about the axis of the diameter I ma= 2 5 2/
surface velocityr r
r rr r
r
U V r V a i V j V a k X Z Y Z X = + × = + + + −ω ω ω ( ) ( )
( ) ( )
( ) ( ) ( ) ( )V a i V a k
X
s
Z
s
Z
s
X
s+ + − =
ω ω
rr
r
0
( ) ( )( ) ( ) ( ) ( ) ( )
V a i V j V a k X Z Y Z X
1 1 1 1 10+ + + − =ω ω
r rr
( ) ( )( ) ( ) ( ) ( )
V a i V a k X Z Z X
2 2 2 20+ + − =ω ω
rr
coefficient of restitution eJ
J
Y
Y
=( )
( )
2
1
Case I : the particle stops sliding in the compression period
at the end of the sliding period
at the end of the compression period
at the end of the recovery period
J i J k f J i f J k X
s
Z
s
X Y
s
Z Y
s( ) ( ) ( ) ( )r
rr
r
+ = − ⋅ − ⋅ε ε
ε ε X Z
2 21+ =
Coulomb’s law applied to the
sliding period
friction coefficient
:factors indicating the proportion of the velocity in each component direction, that
is, the direction cosines of the approaching velocity in the x- and z plane.
Z X ε ε ,
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V V f eY
( )
( )
0
27 1
r < − + −+
< <27 1
00
f eV
V
Y
( )
( )
rCondition
V V a
X X Z
( ) ( ) ( )( )
2 0 05
7
2
5=
⎛ ⎝ ⎜
⎞ ⎠⎟ − ω
V eV Y Y ( ) ( )2 0
= −
V V
a Z Z X
( ) ( ) ( )
( )
2 0 05
7
2
5=
⎛
⎝ ⎜
⎞
⎠⎟ + ω
V V f e V X X X Y
( ) ( ) ( )( )
2 0 01= + +ε
V V f e V Z Z Z Y
( ) ( ) ( )
( )
2 0 0
1= + +ε
V eV Y Y ( ) ( )2 0
= −
Trans.
velocity
ω X Z V
a
( )2 =
ω ω Y Y
( ) ( )2 0=
ω Z X V
a
( )2 = −
ω ω ε X X Z Y a
f e V ( ) ( ) ( )
( )2 0 05
21= − +
ω ω ε Z Z X Y
a
f e V ( ) ( ) ( )
( )2 0 05
2
1= + +
ω ω Y Y
( ) ( )2 0=
Angular
velocity
Relation between pre-and post-collisional velocitiesRelation between pre-and post-collisional velocities
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Irregular bouncingIrregular bouncing
Regular bouncing e < 1
Irregular bouncing
Roughness of wall
Nonspherical particle
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Particle collision with a rough wallParticle collision with a rough wall
Nonspherical particle Nonspherical particle
O
C
ω
V r O
C
V
ω
θ
r
C
O
V
ω
θ
r
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O
C
ω
V r
O
C
V
ω
θ
r
C
O
V
ω
θ
r
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O
r 1
r 12
r 11
r 10
r 8r 7 r 6
r 5
r 3r 2
r 4
r 9
θ 1 θ 2θ 3
θ 5
θ 6
θ 7θ 8
θ 9
θ 10
θ 11
θ 12
θ 4
1
5
4
3
2
9
8 7
6
12
11
10
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O
C H
O
C H
O
C H
O
C H
O
C H
O
C H
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45 0.2m
(a)(b)