SINGLE STAGE TURBINE TYPE PUMPS AURORA 130 SERIES

SINGLE STAGE TURBINE TYPE PUMPS AURORA 130 SERIES
Model 133
Models 134 & 135
AURORA 130 SERIES
®
SINGLE STAGE TURBINE TYPE PUMPS
WWW.AURORAPUMP.COM
SINGLE STAGE TURBINE TYPE PUMPS
AURORA 130 SERIES
®
Single Stage Turbine Type Pumps
Capacities to 50 G.P.M.
Heads to 700 Ft.
Temperatures to 212°F
A Pioneer in Turbine Pump Design
Aurora consistently offers the ultimate in turbine pump design. The
regenerative turbine pump offers many advantages in the area of
low flow and moderate to high pressure. A turbine pump is efficient
under low flow, high-pressure conditions and delivers a steady
stream of liquid free from pressure pulsations. There is no metal-tometal contact existing within the operating parts of a turbine pump
channel. Turbine pumps have solved many liquid-handling problems.
Because of this versatility, thousands of turbine pump units have
been in use for over 50 years. Aurora
offers an efficient, economical and
proven pump.
Three Reasons to Choose the 130 Series
They’re Economical
End-mounted, close-coupled design with single mechanical seal and
choice of 3500 RPM or 1750 RPM operating speeds means you get
greater capacity and pressure, dollar for dollar. In fact, these closecoupled pumps are so economical, it’s practical to have a spare unit
ready for immediate replacement when maintenance is required.
They Can’t Vapor Lock
Turbine impeller handles gases and vapors (up to 20%) along with
the liquid, eliminating any possibility of vapor lock within the pump.
They’re Versatile
Steep head curves with near-constant capacity over wide head
variations means you can specify a 130 Series pump for an extremely
wide range of operating conditions. If necessary, Models 134 and
135 can be easily field converted to right-or left-handed
operation by rotating the casing 180° after removing
only four mounting bolts. Need a self-priming
pump? Specify Model 133, a popular pump
selection due to its self-priming feature.
Aurora responds to users’ needs.
Quick Reference Feature Selector
2
STANDARD
OPTIONAL
• Bronze fitted construction
• All iron, bronze ring, all bronze construction
• Hydraulically balanced bronze impeller
• Ductile iron or stainless steel impeller
• 300# case working pressure
• 316 stainless steel or Monel® shaft
• 416 stainless steel shaft
• Vertical ASA Flanged suction casing (Models 134 and 135 only)
• Internal sealing water passages
• Bypass with manual shut-off valves
• Removable channel rings
• Bypass with relief valve
• VIP-TEST – Every pump is hydrostatically tested and given a
running check consisting of head and capacity
• Certified performance test data consisting of head capacity
and horsepower readings taken over the full operating range
of the pump
SINGLE STAGE TURBINE TYPE PUMPS
Pump Features
2
1
3
2
4
3
5
4
6
5
7
6
8
7
Model 133
Model 134
1 Self-priming feature is provided on Model 133.
6 Double suction impeller minimizes axial thrust.
2 O-ring gaskets prevent leakage.
7 Replaceable channel rings and impellers reduce
maintenance costs.
3 Self-centering impeller minimizes wear.
4 Water slingers protect bearings.
5 Mechanical seal has carbon against ceramic face for optimum
hot water performance. Long life is also assured with 303
stainless steel metal parts and Buna-N elastomers.
WWW.AURORAPUMP.COM
8 Straight-through in-line piping is provided on
Models 134 and 135 for simple installation.
3
SINGLE STAGE TURBINE TYPE PUMPS
Principles of Operation
Turbine pumps derive their name from the many buckets machined
into the periphery of the rotating impeller. They have long been
recognized for their effectiveness in the areas of low flow, high head
application. The turbine pump offers higher heads than centrifugal
pumps. Because the head capacity curve is steep in a turbine pump,
a greater degree of flexibility is available to the engineer. Turbine
pumps having top centerline discharge are self-venting and have the
ability to handle vapors without vapor lock. This characteristic allows
handling of boiling liquids and liquefied gases at suction heads
slightly over the vapor pressure. The turbine pump also has higher
efficiencies at low flows than a centrifugal pump. Turbine pumps
use close running clearances and are normally used on clean liquid
applications. Viscous materials up to 500 S.S.U. can be pumped.
Turbine pumps are unique in operation. The pumped liquid is directed
by the liquid passage so that the liquid circulates in and out of the
impeller buckets many times on its way from the pump inlet to
the pump outlet. Both centrifugal and shearing actions combine to
impart additional energy to the liquid each time it passes through
the buckets. Heads over 700 feet are successfully developed in a
single stage pump. The impeller runs at very close axial clearances
with the pump channel rings to minimize recirculation losses. The
channel rings provide a circular channel around the blade area of
the impeller, from the inlet to the outlet. Liquid entering the channel
from the inlet is picked up immediately by the buckets on both sides
of the impeller and pumped through the channel (Figure 1) by a
shearing action. The flow of the liquid within the impeller buckets is
illustrated in Figure 2. This process is repeated over and over, each
cycle imparting more energy until the liquid is discharged. This flow
is smooth and continuous. Turbine pumps are the most economical
solution to general lift applications. Aurora Pump knows how to
design and build an economical turbine pump without sacrificing
quality or performance.
Figure 1
Figure 2
OUT
4
100
DISCHARGE
PRESSURE
.75
DISCHARGE
PRESSURE
.25
DISCHARGE
PRESSURE
.50
DISCHARGE
PRESSURE
IN
CHANNEL RING
CHANNEL RING
SINGLE STAGE TURBINE TYPE PUMPS
Booster System Dimensions
Determine the pump capacity and discharge head. Find the nearest charted head under the Total Dynamic Head listing, select the desired
motor speed, and head down to the next larger capacity closest to the calculated requirement. The figures and numbers identify the size of
the pump and the motor horsepower.
Horsepowers shown may not be non-overloading. Check performance curve for actual BHP.
Selections are based on cold water with specific gravity of 1.0... for final selection refer to performance curves.
If fluctuation or increase in head is anticipated, the specific pump performance curve should be checked for final selection.
Pump
Size
D03
E03
F03
G03
B04
C04
D04
F05
G05
H05
I05
J05
K05
R.P.M.
GPM
3500
HP
GPM
3500
HP
GPM
3500
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
GPM
1750
HP
GPM
3500
HP
10
7.2
1/3
10.8
1/3
12.0
1/3
15.8
1/2
3.8
1/3
8.5
1/3
5.0
1/3
10.6
1/3
6.6
1/3
12.3
3/4
8.2
1/3
16.5
3/4
12.3
1/3
24.9
2
14.0
1/3
25.0
1-1/2
18.0
1/3
31.3
3
24.4
1/2
38.4
3
30.1
1/3
43.7
7-1/2
20
6.9
1/3
10.1
1/3
11.5
1/3
15.3
1/2
3.5
1/3
8.2
1/3
4.4
1/3
10.2
1/3
6.2
1/3
12.2
3/4
7.6
1/3
16.3
3/4
10.7
1/3
24.6
2
13.1
1/3
24.9
1-1/2
17.2
1/3
31.2
3
23.7
1/2
38.3
3
29.0
1/3
43.6
7-1/2
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30
6.6
1/3
9.7
1/3
11.0
1/3
14.7
1/2
3.2
1/3
7.8
1/3
3.9
1/3
9.9
1/2
5.7
1/3
12.1
3/4
7.1
1/3
16.0
3/4
9.9
1/3
24.1
2
12.4
1/3
24.7
1-1/2
16.5
1/2
31.1
3
22.6
1/2
38.2
3
28.0
1/2
43.6
7-1/2
40
6.3
1/3
9.2
1/3
10.4
1/3
14.2
1/2
2.8
1/3
7.6
1/3
3.6
1/3
9.6
1/2
5.2
1/3
12.0
3/4
6.6
1/3
15.7
3/4
9.2
1/3
23.8
2
11.8
1/3
24.5
1-1/2
15.6
1/2
31.1
3
21.5
1/2
38.1
3
26.9
1/2
43.5
7-1/2
50
5.9
1/3
8.8
1/3
9.9
1/2
13.7
3/4
2.5
1/3
7.3
1/3
3.2
1/3
9.4
1/2
4.7
1/3
11.9
3/4
6.3
1/3
15.5
3/4
8.4
1/3
23.6
2
11.2
1/3
24.4
1-1/2
15.0
1/2
31.0
3
20.3
3/4
38.1
3
25.8
3/4
43.5
7-1/2
60
5.6
1/3
8.4
1/2
9.5
1/2
13.2
3/4
2.2
1/3
7.0
1/3
2.9
1/3
9.1
1/2
4.2
1/3
11.8
3/4
6.0
1/3
15.3
1
7.8
1/3
23.0
2
10.7
1/2
24.2
1-1/2
14.2
3/4
30.9
3
19.2
3/4
38.0
3
24.6
3/4
43.4
7-1/2
70
5.2
1/3
8.0
1/2
9.1
1/2
12.7
3/4
1.8
1/3
6.8
1/2
2.6
1/3
8.8
1/2
3.6
1/3
11.7
3/4
5.6
1/3
15.0
1
7.2
1/3
22.7
2
10.2
1/2
24.1
1-1/2
13.5
3/4
30.8
3
18.1
3/4
38.0
3
23.5
3/4
43.4
7-1/2
80
4.7
1/3
7.2
1/2
8.6
1/2
12.2
3/4
1.5
1/3
6.6
1/2
2.3
1/3
8.5
1/2
3.0
1/3
11.6
3/4
5.4
1/3
14.7
1
6.5
1/2
22.3
2
9.7
3/4
24.0
1-1/2
12.8
3/4
30.7
3
17.0
3/4
37.9
3
22.2
1
43.3
7-1/2
Total Dynamic Head
90
100
150
200
250
4.3
3.9
2.3
1.0
1/3
1/3
1/2
3/4
7.2
6.9
5.2
3.7
2.1
1/2
1/2
3/4
1
1
8.3
7.9
6.1
4.4
2.7
3/4
3/4
3/4
1
1-1/2
11.7
11.3
9.1
6.9
4.5
3/4
1
1
1-1/2
2
1.1
0.7
1/3
1/3
6.3
6.1
5.1
4.2
3.3
1/2
1/3
3/4
3/4
1
2.0
1.7
1/3
1/3
8.3
8.1
6.9
5.8
4.8
1/2
1/2
3/4
3/4
1
2.4
1.8
1/3
1/3
11.5
11.3
10.4
9.0
7.1
3/4
3/4
1
1
1-1/2
5.1
4.8
3.4
2.0
1/2
1/2
1/2
3/4
14.4
14.2
13.0
11.9
10.8
1
1
1-1/2 1-1/2
2
6.0
5.4
2.6
1/2
1/2
3/4
22.0
21.5
20.0
18.2
16.6
3
3
3
3
3
9.2
8.8
6.7
4.7
3.0
3/4
3/4
1
1
1-1/2
23.8
23.7
22.8
21.7
20.5
2
2
2
3
3
12.2
11.5
8.5
5.7
3.0
3/4
3/4
1
1-1/2
2
30.6
30.5
29.8
28.5
26.8
3
3
5
5
5
15.6
14.5
8.4
2.2
3/4
1
1-1/2 1-1/2
37.8
37.8 37..2 36.5
35.0
3
3
3
5
5
21.0
19.8
12.7
5.0
1
1
1-1/2
2
43.3
43.2
42.9
42.3
41.7
7-1/2 7-1/2 7-1/2 7-1/2 7-1/2
300
350
400
450
500
550
600
650
2.0
2
2.4
1
1.4
1-1/2
3.8
1
2.8
1-1/2
1.9
1-1/2
5.5
1-1/2
4.0
2
2.6
2
9.8
2
9.0
3
8.0
3
7.1
3
6.3
3
5.5
5
4.6
5
3.8
5
15.0
5
13.5
5
12.0
5
10.5
5
9.0
5
7.7
7-1/2
6.4
10
5.1
10
19.2
5
17.8
5
16.0
5
14.4
5
12.9
7-1/2
11.3
10
10.0
10
8.5
10
25.0
5
23.2
5
21.5
7-1/2
19.8
10
18.1
10
16.5
10
14.9
10
13.2
10
32.8
7-1/2
30.3
7-1/2
27.5
10
24.5
10
21.3
10
18.0
10
14.5
10
11.0
15
40.9
7-1/2
39.0
10
36.0
10
32.7
10
29.1
10
25.7
15
22.0
15
18.0
15
5
SINGLE STAGE TURBINE TYPE PUMPS
Engineering Specifications
The contractor shall furnish (and install as shown on the plans) an
Aurora regenerative turbine type pump model ______ size ______
(Bronze Fitted) (All Iron) (All Bronze). Each pump shall have a capacity
of ______ G.P.M. when operating at a total head of ______ feet.
Pumping temperature is ______°F. Specific gravity is ______.
The fluid to be pumped is (describe) ____________ and NPSH
of ______. Suction pressure will be ______ feet. The pump is
to be furnished with mechanical seal, replaceable channel rings
with in-line suction and discharge openings in casing. The casing
shall be of 30,000 pound tensile strength cast iron. The impeller
shall be hydraulically self-centering and no external adjustment
shall be necessary. Each pump shall be tested prior to shipment.
The pump shall be close coupled to a ______ HP, ______ phase,
______ Hertz, ______ voltage, ______ R.P.M., horizontal
(drip proof) (totally enclosed) (explosion proof) motor. For (continuous)
(intermittent) operation in a ______°F maximum and ______°F
minimum atmosphere. The motor shall be sized to prevent overloading
at the highest head condition listed in the specifications.
Materials of Construction
Pump Part
Casing
Cover (133)
Impeller
Impeller Sleeve
Inner Ring
Outer Ring (134 & 135)
Mechanical Seal
Bronze Fitted
All Iron
All Bronze
Cast Iron ASTM A48
Cast Iron ASTM A48
Bronze ASTM B62
Cast Iron ASTM A48
Cast Iron ASTM A48
Bronze ASTM B62
Bronze ASTM B62
Ductile Iron ASTM A395
Bronze ASTM B62
Bronze ASTM B62
Stainless Steel AISI 316
Bronze ASTM B62
Cast Iron ASTM A48
Cast Iron ASTM A48
Bronze ASTM B62
Cast Iron ASTM A48
Cast Iron ASTM A48
Bronze ASTM B62
316 stainless steel metal parts, Buna-N elastomer parts,
Ceramic seat and carbon washer.
Model 133
Models 134 & 135
Limitations
Pump Model
133
134
135
135
Notes
6
Pump Size
D03
through
G03
A04
B04
C04
D04
F05
G05
H05
I05
J05
K05
F05
through
K05
Maximum Suction
Pressure
P.S.I.
Maximum Diff.
Pressure
P.S.I.
Maximum Casing
Pressure
P.S.I.
Maximum
Temp.
°F
Minimum Suction Pressure Vac. in Hg
100
150
175
225
26
300
225
26
300
225
26
300
225
26
100
100
100
225
225
190
180
280
250
220
175
150
130
300
1.Maximum differential pressure based on allowable shaft
deflection for standard shafts.
2.Maximum casing pressure based on laboratory tests at twice the
pressure shown.
3.All pressure limitations on this chart are based on standard
pumps constructed of standard materials and handling water at
normal temperatures.
Motor Frame
56
145T
182T
184T
213T
215T
254T
4.For temperatures below –32°F, consult factory.
5.Maximum suction pressure based on limitations of mechanical
seal furnished as standard.
6.Pumps should not be used when any one of the above limitation
is exceeded.
SINGLE STAGE TURBINE TYPE PUMPS
Specifications
AG APPROX.
DF
YY
DG
X
A
IN
NPT SUCTION
(4) HOLES
NPT DISCHARGE
OUT
IN
X
D
OUT
DISCHARGE
POSITION (2)
OUT
STANDARD DISCHARGE
POSITION (1)
IN
OUT
IN
YY
DISCHARGE
POSITION (3)
Notes
1.Dimensions and weights are approximate.
2.All dimensions are in inches and may vary ±1/8".
3.Frame sizes, AG dimension and motor weight
are for open drip proof motors only.
4.Conduit box is shown in approximate position.
Dimensions are not specified as they vary with
each motor manufacturer.
5.Add pump and motor weight for unit weight.
6.Not for construction purposes unless certified.
7.Aurora Pump reserves the right to make
revisions to its products and their specifications,
and to this bulletin and related information,
without notice.
Horsepower
Frame
56
145T
182T
184T
213T
215T
254T
3500 RPM
1/3
1/2
3/4
1
1-1/2
2
—
3**
3*
5**
7-1/2**
—
10
15
20
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1750 RPM
1/3
1/2
3/4
1
1-1/2**
—
1-1/2*
2**
2*
3**
3*
5**
—
—
—
Motor
Weight
(Lbs.)
29
46
56
56
65
80
42
48
65
69
79
83
105
125
200
AG APPROX.
NPT SUCTION
DISCHARGE
POSITION (4)
NPT DISCHARGE
YY
DF DG
3-5/8
7-15/16
3-1/2
A
D
AG
Model
6-3/4
3-1/2
11
133
134
135
7
3-1/2
11
9
4-1/2
11
9
4-1/2
12
10-1/2
10-1/2
12-1/2
5-1/4
5-1/4
6-1/4
14
15
17
Model
Suction
Discharge
DF
DG
X
YY
Pump Wt.
(Lbs.)
4 HOLES
133
3/4
3/4
1-7/8
1-1/2
N/A
2-1/2
134
1
1
2
1-11/16
3-3/4
3-3/4
135
2
1-1/2
2-1/4
2-1/4
4-1/2
4-1/2
13
16
30
134
135
135
* Single phase only
** Three phase only
7
800 AIRPORT ROAD, NORTH AURORA, ILLINOIS 60542 WWW.AURORAPUMP.COM
Monel is a trademark of Special Metals Corporation.
Aurora is a registered trademark of Pentair Ltd.
Because we are continuously improving our products and services, Pentair reserves the right to change specifications without prior notice.
A-02-1006 11/26/12 © 2012 Pentair Ltd. All Rights Reserved.
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