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 Page 1


Finite Control V olume Analysis
CVEN 311
Application of Reynolds Transport Theorem
Page 2


Finite Control V olume Analysis
CVEN 311
Application of Reynolds Transport Theorem
Moving from a System to a Finite 
Control V olume
?Mass
?Linear Momentum
?Moment of Momentum
?Energy
?Putting it all together!
Page 3


Finite Control V olume Analysis
CVEN 311
Application of Reynolds Transport Theorem
Moving from a System to a Finite 
Control V olume
?Mass
?Linear Momentum
?Moment of Momentum
?Energy
?Putting it all together!
Conservation of Mass
B = Total amount of ____ in the system
b = ____ per unit mass = __ 
ˆ
sys
cv cs
DM
dV dA
Dt t
rr
¶
= + ×
¶
òò
Vn
ˆ
cs cv
dA dV
t
rr
¶
× = -
¶
òò
Vn
mass
1
mass
But DM
sys
/Dt = 0!
cv equation
mass leaving - mass entering = - rate of increase of mass in cv
ˆ
sys
cv cs
DB
bdV b dA
Dt t
rr
¶
= + ×
¶
òò
Vn
Continuity Equation
Page 4


Finite Control V olume Analysis
CVEN 311
Application of Reynolds Transport Theorem
Moving from a System to a Finite 
Control V olume
?Mass
?Linear Momentum
?Moment of Momentum
?Energy
?Putting it all together!
Conservation of Mass
B = Total amount of ____ in the system
b = ____ per unit mass = __ 
ˆ
sys
cv cs
DM
dV dA
Dt t
rr
¶
= + ×
¶
òò
Vn
ˆ
cs cv
dA dV
t
rr
¶
× = -
¶
òò
Vn
mass
1
mass
But DM
sys
/Dt = 0!
cv equation
mass leaving - mass entering = - rate of increase of mass in cv
ˆ
sys
cv cs
DB
bdV b dA
Dt t
rr
¶
= + ×
¶
òò
Vn
Continuity Equation
Conservation of Mass
12
1 1 1 2 2 2
ˆ ˆ 0
cs cs
dA dA rr × + × =
òò
V n V n
1
2
V
1
A
1
If mass in cv 
is constant
Unit vector     is ______ 
to surface and pointed 
____ of cv
ˆ
cs cv
dA dV
t
rr
¶
× = -
¶
òò
Vn
ˆ n
normal
out
ˆ
cs
dA r ×=
ò
Vn
m
ˆ
cs
dA
V
A
×
=
ò
Vn
VA r =
ˆ n
We assumed uniform ___ on 
the control surface
r
is the spatially averaged 
velocity normal to the cs
V
[M/T]
Page 5


Finite Control V olume Analysis
CVEN 311
Application of Reynolds Transport Theorem
Moving from a System to a Finite 
Control V olume
?Mass
?Linear Momentum
?Moment of Momentum
?Energy
?Putting it all together!
Conservation of Mass
B = Total amount of ____ in the system
b = ____ per unit mass = __ 
ˆ
sys
cv cs
DM
dV dA
Dt t
rr
¶
= + ×
¶
òò
Vn
ˆ
cs cv
dA dV
t
rr
¶
× = -
¶
òò
Vn
mass
1
mass
But DM
sys
/Dt = 0!
cv equation
mass leaving - mass entering = - rate of increase of mass in cv
ˆ
sys
cv cs
DB
bdV b dA
Dt t
rr
¶
= + ×
¶
òò
Vn
Continuity Equation
Conservation of Mass
12
1 1 1 2 2 2
ˆ ˆ 0
cs cs
dA dA rr × + × =
òò
V n V n
1
2
V
1
A
1
If mass in cv 
is constant
Unit vector     is ______ 
to surface and pointed 
____ of cv
ˆ
cs cv
dA dV
t
rr
¶
× = -
¶
òò
Vn
ˆ n
normal
out
ˆ
cs
dA r ×=
ò
Vn
m
ˆ
cs
dA
V
A
×
=
ò
Vn
VA r =
ˆ n
We assumed uniform ___ on 
the control surface
r
is the spatially averaged 
velocity normal to the cs
V
[M/T]
Continuity Equation for Constant 
Density and Uniform Velocity
12
1 1 2 2
0 V A V A rr - + =
12
12
V A V A Q ==
12
1 1 1 2 2 2
ˆ ˆ 0
cs cs
dA dA rr × + × =
òò
V n V n
Density is constant across cs
Density is the same at cs
1
and cs
2
[L
3
/T]
Simple version of the continuity equation 
for conditions of constant density. It is 
understood that the velocities are either 
________ or _______ ________.
1 1 2 2
V A V A Q ==
uniform spatially averaged
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Document Description: PPT: Conservation Equations & Analysis of Finite Control Volume for Mechanical Engineering 2024 is part of Fluid Mechanics for Mechanical Engineering preparation. The notes and questions for PPT: Conservation Equations & Analysis of Finite Control Volume have been prepared according to the Mechanical Engineering exam syllabus. Information about PPT: Conservation Equations & Analysis of Finite Control Volume covers topics like and PPT: Conservation Equations & Analysis of Finite Control Volume Example, for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for PPT: Conservation Equations & Analysis of Finite Control Volume.
Introduction of PPT: Conservation Equations & Analysis of Finite Control Volume in English is available as part of our Fluid Mechanics for Mechanical Engineering for Mechanical Engineering & PPT: Conservation Equations & Analysis of Finite Control Volume in Hindi for Fluid Mechanics for Mechanical Engineering course. Download more important topics related with notes, lectures and mock test series for Mechanical Engineering Exam by signing up for free. Mechanical Engineering: PPT: Conservation Equations & Analysis of Finite Control Volume | Fluid Mechanics for Mechanical Engineering
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