Flowserve UNA 14 User Manual
Page 11
11
Technical Data
1
) Observe pressure/temperature specifications !
2
) Inlet pressure minus outlet pressure.
3
) Max. admissible differential pressure 16 bar with a liquid density of
ρ = 1000 kg/m
3
Pressure/temperature ratings according to type of connection!
*) Depending on orifice (O)
Orifices (O)
UNA 14
UNA 16
UNA 16A
UNA 14P
Orifice 4
4
X
X
X
Orifice 13
13
3
)
X
X
X
X
Orifice 22
22
X
X
Max. admissible
differential pressure
1
)
2
)
∆∆∆∆∆PMX [bar]
5
2
N
P
,
)
0
E
3
(
n
o
r
i
)
e
l
i
t
c
u
d
(
.
G
.
S
4
1
A
N
U
)
1
-
2
9
0
1
N
I
D
(
g
n
i
t
a
R
e
r
u
t
a
r
e
p
m
e
T
/
e
r
u
s
s
e
r
P
A
M
P
e
r
u
s
s
e
r
p
e
l
b
a
w
o
ll
a
.
x
a
M
]
r
a
b
[
5
2
4
.
9
1
8
.
7
1
5
1
A
M
T
e
r
u
t
a
r
e
p
m
e
t
e
l
b
a
w
o
ll
a
.
x
a
M
]
C
°
[
0
2
0
0
2
0
5
2
0
5
3
e
r
u
s
s
e
r
p
l
a
i
t
n
e
r
e
f
f
i
d
m
u
m
i
x
a
M
∆ X
M
P
(
t
e
l
n
i
s
u
n
i
m
e
r
u
s
s
e
r
p
t
e
l
t
u
o
)
e
r
u
s
s
e
r
p
]
r
a
b
[
)
*
4
r
o
3
1
0
4
N
P
,
)
0
E
3
(
l
e
e
t
s
n
o
b
r
a
c
6
1
A
N
U
)
1
-
2
9
0
1
N
I
D
(
g
n
i
t
a
R
e
r
u
t
a
r
e
p
m
e
T
/
e
r
u
s
s
e
r
P
A
M
P
e
r
u
s
s
e
r
p
e
l
b
a
w
o
ll
a
.
x
a
M
]
r
a
b
[
0
4
2
.
0
3
8
.
5
2
1
.
3
2
A
M
T
e
r
u
t
a
r
e
p
m
e
t
e
l
b
a
w
o
ll
a
.
x
a
M
]
C
°
[
0
2
0
0
2
0
0
3
0
0
4
e
r
u
s
s
e
r
p
l
a
i
t
n
e
r
e
f
f
i
d
m
u
m
i
x
a
M
∆ X
M
P
(
t
e
l
n
i
s
u
n
i
m
e
r
u
s
s
e
r
p
t
e
l
t
u
o
)
e
r
u
s
s
e
r
p
]
r
a
b
[
)
*
4
r
o
3
1
,
2
2
0
5
1
S
S
A
L
C
,
l
e
e
t
s
n
o
b
r
a
c
6
1
A
N
U
g
n
i
t
a
R
e
r
u
t
a
r
e
p
m
e
T
/
e
r
u
s
s
e
r
P
A
M
P
e
r
u
s
s
e
r
p
e
l
b
a
w
o
ll
a
.
x
a
M
]
r
a
b
[
3
.
7
1
8
.
3
1
2
.
0
1
5
.
6
A
M
T
e
r
u
t
a
r
e
p
m
e
t
e
l
b
a
w
o
ll
a
.
x
a
M
]
C
°
[
0
2
0
0
2
0
0
3
0
0
4
e
r
u
s
s
e
r
p
l
a
i
t
n
e
r
e
f
f
i
d
m
u
m
i
x
a
M
∆ X
M
P
(
t
e
l
n
i
s
u
n
i
m
e
r
u
s
s
e
r
p
t
e
l
t
u
o
)
e
r
u
s
s
e
r
p
]
r
a
b
[
)
*
4
r
o
3
1
0
4
N
P
,
)
0
E
3
1
(
l
e
e
t
s
s
s
e
l
n
i
a
t
s
A
6
1
A
N
U
)
1
-
2
9
0
1
N
I
D
(
g
n
i
t
a
R
e
r
u
t
a
r
e
p
m
e
T
/
e
r
u
s
s
e
r
P
A
M
P
e
r
u
s
s
e
r
p
e
l
b
a
w
o
ll
a
.
x
a
M
]
r
a
b
[
0
4
6
.
5
3
3
.
9
2
8
.
5
2
A
M
T
e
r
u
t
a
r
e
p
m
e
t
e
l
b
a
w
o
ll
a
.
x
a
M
]
C
°
[
0
2
0
0
1
0
0
2
0
0
3
)
N
P
li
t
n
u
(
e
r
u
t
a
r
e
p
m
e
t
w
o
l
.
x
a
M
]
C
°
[
6
9
1
–
e
r
u
s
s
e
r
p
l
a
i
t
n
e
r
e
f
fi
d
m
u
m
i
x
a
M
∆ X
M
P
(
t
e
l
n
i
s
u
n
i
m
e
r
u
s
s
e
r
p
t
e
l
t
u
o
)
e
r
u
s
s
e
r
p
]
r
a
b
[
)
*
4
r
o
3
1
,
2
2