Direction Of Rotation; Noise Level; Connections; Permissible Forces And Moments - salmson NFCH Installation Et Mise En Service

0,3.Q <Q<1,1.Q
opt opt
0,5.Q <Q<1,1.Q
opt opt
0,7.Q <Q<1,2.Q
opt opt
When the pump is used in an ATEX zone it is necessary to
measure the duty point and check that temperature increase
corresponding to each working condition is acceptable regarding
selected surface temperature.
The formula below gives the correspondence between surface
temperature / fluid temperature and pump efficiency :
T =T +
o f v

=[(g.H)/(c.)]*(1-)
v
With :
c=calorific capacity of fluid in J/Kg.K
g=gravity in m/s²
H=pump head in m
T =liquid temperature in °C
f
T =surface temperature in °C
o
=hydraulic efficiency at duty point

=differential temperature
v
5.2.2.4 MAXIMUM ALLOWABLE SP EED AND NUMBER OF
STARTS PER HOUR
Maximum speed :
The maximum speed for each pump size is indicated in the table below.
Maximum allowable speed depends on working temperature and
impeller diameter.
3600
RPM
32-125 32-160 32-200
40-125 40-160 40-200
50-125 50-160 50-200
65-125 65-160 65-200
80-160 80-200
100-160 100-200
3600
RPM
32-125 32-160 32-200
40-125 40-160 40-200
50-125 50-160 50-200
65-125 65-160 80-200
100-160
Number of starts per hour :
Wait for pump full stop before starting-up the pump again
to avoid damaging the motor and the pump.
Starting frequency
manufacturer if necessary.
A maximum of 8 starts per hour is recommended.
PUMP SIZE
32-125 to 80-315
100-315
150-250 to 150-500
100-160 to 100-250
125-200 to 125-250
150-200
200-500
200-250 to 200-400
T°C < 120°C
3000 1800
RPM RPM
32-250 40-315
40-250 50-315
50-250 65-315
65-250 80-315
80-250 100-315
100-250 125-250
125-200 150-200
150-250
T°C < 350°C
3000 1800
RPM RPM
32-250 40-315
40-250 50-315
50-250 65-315
65-200 80-315
65-250 100-315
80-160 125-200
80-250 125-250
100-200 150-200
100-250 150-250
depends on motor type.
5.2.2.5 TYPE OF HANDLED FLUIDS
The pump is used to transfer thermal oils (mineral or synthetic oils) up
to 350°C.
Maximum fluid viscosity is 300 cSt (mm²/s).
5.2.3

DIRECTION OF ROTATION

Serious damage can result if the pump is started or run in the
wrong direction of rotation.
Ensure that the direction of rotation is correct before first start-up or if
maintenance work has been carried out on the electric power supply.
Direction of rotation must correspond to the arrow attached or
engraved in the pump.
Check direction of rotation when motor is apart (coupling spacer
dismantled or motor not coupled to pump). If not feasible due to pump
design (pump fitted with rigid coupling) it is necessary to check that
pump shaft turns freely after the test and before final pump start.
To check direction of rotation start motor briefly and check direction of
rotation just before rotation stops. If direction of rotation must be
modified then reverse two phases in motor junction box.
It is possible to change two phases in the control cabinet on motor
starter connections. If this solution is preferred then it will be
necessary to modify the identification of the cables in the electrical
drawings too.
5.2.4

NOISE LEVEL

Noise level of a complete pump set depends on motor type and speed,
on quality and wear of flexible coupling (if concerned), on fluid velocity,
piping design, ... Values given hereafter are only indicative and based on
fan cooled electric motors average noise levels.
The test must be perfomed on the supplied pump if the noise level
must be certified.
If noise level is higher than 85dBA, personel working in pump area
should wear hearing protections.
Motor speed 
Elec motor power

[KW]
< 0,55
0,75
1,1
1,5
2,2
3
4
5,5
7,5
11
15
18,5
22
30
37
45
55
75
90
110
150
Indicative noise level given in dBA (LpA at 1 m)
5.2.5

CONNECTIONS

 Suction flange axis is horizontal and the face is vertical.
 Discharge flange axis is vertical and the face is horizontal.
5.2.6

Permissible forces and moments

No other stress than the one due to tightening of pipe and pump
flanges together should apply. No stress must be applied to pump
casing by the pipe work. A pre-stress may exceptionally be applied to
flanges to compensate a pipe expansion. But in any case the resulting
forces should not exceed values given hereafter.
The values are determined on the basis of ISO/DIN 5199 – Class II
Ask
(1997)- Appendix B, family N°2 for a max working temperature of
110°C. Pump casing made of FGL cast Iron.
9
ENGLISH
2900 RPM 1450 RPM
Pump set Bare shaft Pump set
65 60 65
65 60 65
65 60 65
70 65 70
75 70 70
75 70 70
85 80 70
85 80 70
85 80 70
85 80 75
85 80 75
85 80 75
85 80 75
85 80 80
90 80 80
90 80 80
95 85 80
95 85 85
95 85 85
95 85 85
95 85 85
Bare shaft
60
60
60
65
65
65
65
65
65
70
70
70
70
75
75
75
75
80
80
80
80