elementary mechanics of fluids ce 319 f daene mckinney description of motion
TRANSCRIPT
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Elementary Mechanics of Fluids
CE 319 F
Daene McKinney
Description of Motion
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Fluid Motion
• Two ways to describe fluid motion– Lagrangian
• Follow particles around
– Eularian• Watch fluid pass by a
point or an entire region
– Flow pattern• Streamlines – velocity
is tangent to them
kjiVdt
dz
dt
dy
dt
dx
kjiV wvu
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Flow Patterns
• Uniform flow
• Non-uniform flow
• Steady flow
• Unsteady flow
0s
V
0s
V
0t
V
0t
V
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Example (4.1)
• Valve at C is opened slowly
• Classify the flow at B while valve is opened
• Classify the flow at A
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HW (4.2)
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Laminar vs Turbulent Flow
• Laminar • Turbulent
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Flow Rate
• Volume rate of flow– Constant velocity over
cross-section
– Variable velocity
• Mass flow rate
VAQ
AVdAQ
QVdAVdAmAA
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Examples
• Prob. 4.17 Discharge in a 2-cm pipe is 0.03 m3/s. What is the average velocity?
smd
Q
A
QV
VAQ
/611.0)25.0(
4
03.0
422
• Prob. 4.20 A pipe whose diameter is 8 cm transports air with a temp. of 20oC and pressure of 200 kPa abs. At 20 m/s. What is the mass flow rate?
skg
VAm
mkgRT
p
/239.0)08.0(4
*20*378.2
/378.2293*287
200000
2
3
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Flow Rate
• Only x-direction component of velocity (u) contributes to flow through cross-section
AV
V
Q
or
dAQ
or
dAVudAVdAQ
A
A AAcos
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Example (4.24)
• Find:
)1()(R
rVrv o
oV
V
3
13
13
1
)32
(2)32
(2
2)/1(
2
2
2
22
0
32
0
o
o
oo
o
o
R
o
R
oA
VR
RVVA
Q
V
V
RV
RRV
R
rrV
rdrRrVVdAQ
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Example (4.28)
• Find: mVQ ,,
skgQm
smA
QV
smy
ydyVdAQ
/65*2.1
/51
5
/52
40
2022
35.0
0
2
5.0
0
5.0
0
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HW (4.30)
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Acceleration
• Acceleration = rate of change of velocity
• Components: – Normal – changing direction
– Tangential – changing speed
dt
dV
dt
dV
dt
d
tsV
tt
t
ee
Va
eV
),(
nt
nt
r
V
t
V
s
VV
r
V
dt
dt
V
s
VV
dt
dV
eea
ee
2)(
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Acceleration
• Cartesian coordinates
• HW (4.43)
kjiV
wvu
Convective Local
t
wwz
wvy
wux
w
t
w
dt
dz
z
w
dt
dy
y
w
dt
dx
x
w
dt
dwa
t
vwz
vvy
vux
v
t
v
dt
dz
z
v
dt
dy
y
v
dt
dx
x
v
dt
dva
t
uwz
uvy
uux
u
t
u
dt
dz
z
u
dt
dy
y
u
dt
dx
x
u
dt
dua
z
y
x
.
.
.
kjiazyx aaa
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Example (4.49)
2
2
22
1
22
1
1
/49.72*743.3
/55.2)1()5.0(
4
5.0
4
)/(
/4743.3)5.0(
4
)5.0(5.0985.0
4
/2
5.0985.0
sms
VVa
smtd
Q
t
AQ
t
Va
smd
t
tQQ
A
QV
sms
V
tt
tQQQ
C
o
L
oo
oo
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HW (4.50 & 4.51)
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Example
a
kjiV
on,Accelerati:Find
3:Given 2tyxzt
kjikjia
)2()3(3 22 yxyzttxytzaaa zyx
2;;3 tywxzvtu
222
22
2
2)(0)(2)3(0
30)()(0)3(
33)(0)(0)3(0
yxyztytyxztytt
wwz
wvy
wux
wa
txyzttyxxztzt
vwz
vvy
vux
va
tyxztt
uwz
uvy
uux
ua
z
y
x