Mounting Position - ITT Goulds Pumps M15412 Instrucciones De Instalación Y Funcionamiento

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Technical Data
Technical Data
(Continued)
Transformer Capacity Required for Submersible
Motors – Single or Three Phase
Distribution transformers must be adequately sized to satisfy
the KVA requirements of the submersible motor. When
transformers are too small to supply the load, there is a
reduction in voltage to the motor.
Table 1 references the motor horsepower rating, single
phase and three phase, total effective KVA required, and the
smallest transformer required for open or closed three phase
systems. Open systems require larger transformers since only
two transformers are used.
Other loads would add directly to the KVA sizing require-
ments of the transformer bank.
Table 1 – Transformer Capacity
Motor HP
Total Effective
KVA Required
3
2
4
3
5
5
7.5
10
10
15
15
20
20
25
25
30
30
40
40
50
50
60
60
75
75
90
100
120
125
150
150
175
175
200
200
230
NOTE: Transformers shown are standard nominal KVA ratings. If power company
experience and practice allows transformer loading higher than nominal rating under
the specific operating conditions and maintains correct voltage and balance, such
higher loading values may be used for transformer(s) to meet total effective KVA
required.

Mounting Position

Motors are suitable for operation in mounting positions
from vertical shaft up to horizontal. If 4 inch motors through
2 HP are started more than 10 times per day, it is recom-
mended the shaft be tilted up at 15° from horizontal to
minimize coast-down wear of the upthrust washer.
Smallest KVA Rating –
Each Transformers
Open WYE
Closed
or DELTA
WYE or DELTA
2 Transformers
3 Transformers
2
1
2
1.5
3
2
5
3
7.5
5
10
5
15
7.5
15
10
20
10
25
15
30
20
35
20
40
25
50
30
65
40
85
50
100
60
115
70
130
75
Frequency of Starts
The average number of starts per day over a period of
months or years influences the life of a submersible pumping
system. Excessive cycling affects the life of control compo-
nents such as pressure switches, starters, relays and capaci-
tors, plus splines and bearings. Rapid cycling can also cause
motor overheating and winding failures.
The pump size, tank size and other controls should be select-
ed to keep the starts per day as low as practical for longest
life, based upon the maximum number of starts per 24 hour
day, as shown in Table 2.
Motors over 2 HP should be allowed to run a minimum of
2 minutes to dissipate heat build up from starting current.
Table 2 – Number of Starts
Motor Rating
Single Phase
½ HP through 5 HP
7½ HP through 30 HP
40 HP and over
Motor Cooling, Temperature and Time Ratings
All 4 inch CentriPro motors may be operated continuously
in water up to 86º F. Optimum service life will be attained
by maintaining a minimum flow rate past the motor of .25
feet per second. Use a Flow Sleeve if velocity is below the
.25'/sec, if the well is top feeding or when the pump is used
in a large body of water or large tank.
Six (6) inch canned design motors from 5 – 40 HP will
operate in water up to 95º F (35º C), without any de-rating
of horsepower, with a minimum flow rate of .5 ft./sec. past
the motor. 6" – 50 HP and all 8" – 10" motors can operate in
77º F (25º C) water with .5'/sec velocity past the motor.
Table 3 – Minimum Flow Rates For Proper Motor Cooling
3.75" Diameter
Well or
4" CP or FE Motor
Sleeve
.25'/sec
Diameter
(inches)
4
1.2
5
7
6
13
7
20
8
30
10
50
12
80
14
110
16
150
Multiply gpm by .2271 for m
/Hr.
3
Multiply gpm by 3.785 for l/min.
Maximum Starts per 24 hour day
Three Phase
100
300
50
100
100
CP = 5.5" Dia.
CP = 7.52" Dia.
6" CP Motor
8" CP Motor
.5'/sec.
.5'/sec.
GPM Required
7
23
41
9
85
53
139
107
198
170
276
313
11

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