AURORA 3500 Series
®
MODEL 3560 ASME/ANSI B73.1M
INDUSTRIAL PROCESS PUMPS
WWW.AURORAPUMP.COM
INDUSTRIAL PROCESS PUMPS
AURORA 3500 Series
®
Model 3560 ASME/ANSI B73.1M
Industrial Process Pumps
Capacities to 7000 GPM (1590 m3/hr)
Heads to 725 Ft. (221 m)
Temperatures to 650˚F (343˚C)
Pressures to 375 PSIG (2586 kPa)
ANSI Pumps
The Aurora Model 3560 was designed to perform in the toughest industrial applications
whether in the chemical, petro-chemical, mining, pulp and paper, consumer products
or general industry.
If you are considering an ANSI pump for an industrial application, look to Aurora
Model 3560 for your pumping solution.
Model 3560 Groups 1, 2 and 3
The Aurora Model 3560–Groups 1, 2 & 3 were developed with the standard features
required to withstand the most difficult applications and maximize mean-timebetween-failures (MTBF).
•Model 3560-1 – 5 ASME/ANSI Pumps
•Model 3560-2 – 13 ASME/ANSI Pumps
Model 3560-3
•Model 3560-3 – 7 ASME/ANSI Pumps
Model 3560-2
Model 3560-1
2
INDUSTRIAL PROCESS PUMPS
3500/2900 and 1750/1450 RPM Range Charts
CAPACITY – 2900 RPM (50 HZ)
20 m3/h
FT.
1120
TOTAL HEAD – 3500 RPM (60 HZ)
320
280
240
200
160
40
60
0 GPM
80
40
0
100
120
200
140
160
400
180
200
600
220
240
800
260
FT.
1000
m
750
1040
3500 / 2900 RPM
1
960
200
2
880
600
800
150
720
3x2-13
640
560
450
3x11/2-13
480
120
80
4x3-13
400
2x1-10A
320
240
3x1/2-10A
160
11/2x1-6
80
0
GPM 0
3x2-10A
3x1/2-8
11/2x1-8
4x3-10
6x4-10
150
4x3-8
3x2-8
100
50
3x2-6
3x1/2-6
200
m3/h 0
300
TOTAL HEAD – 2900 RPM (50 HZ)
m
400
50
600
100
800
150
1000
1200
200
1400
250
0
0
300
CAPACITY – 3500 RPM (60 HZ)
CAPACITY – 1450 RPM (50 HZ)
m
50
100
200
FT. 0 GPM
300
150
400
190
600
500
800
800
2300
1100
3800
1400
5300
6800
FT.
200
TOTAL HEAD – 1750 RPM (60 HZ)
1750/1450 RPM
80
1
2
3
250
6x4-16
60
200
8x6-16A
40
3x2-13
3x11/2-13
2x1-10A
100
11/2x1-6
3x2-8
200
m3/h 0
50
*In the developmental stage.
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4x3-10H
6x4-10
50
10
4x3-10
3x2-6
0
GPM 0
20
6x4-10H
4x3-8
30
10x8-16H
8x6-14A
3x11/2-10A
11/2x1-8 3x11/2-8
100
10x8-14
4x3-13
3x2-10A
0
40
10x8-16
6x4-13A
150
50
50
150
4x3-13HH*
20
m
60
TOTAL HEAD – 1450 RPM (50 HZ)
0
m3/h
400
100
600
800
150
1000
200
2800
227 400
CAPACITY – 1750 RPM (60 HZ)
4600
800
6400
1200
8200
0
0
1600
Scale Change
3
INDUSTRIAL PROCESS PUMPS
Pump Features
Lip Type Oil Seals
F.
• Prevent external contaminants
• Lower oil temperature
A.
Positive Sealing
• Oil mist
• Protects alignment fit
• Optional labyrinth seals
•Greased
• Dramatically improve bearing life
• Maximum lubrication options
• Provides ease of maintenance
and increased safety
Oversized Shaft
Large Sight Glass
G.
• Fully confined gasket
Engineered
Seal Chambers
L.
• Shaft deflection less than .002 in.
per ANSI B73.1M
• Allows monitoring of oil condition
• Decreased vibration
• Helps increase bearing life
• Large bore
• Significantly increases both seal
and bearing life
• Taper bore / modified flow
• Designed to provide optimum
seal environment
C.
Heavy Duty Bearing
• Designed for maximum
hydraulic loads
• Optional duplex (40˚/40˚ angular
contact) thrust bearings
• Bearings can perform under the
toughest conditions
External Impeller
Adjustment
D.
• Optimizes energy consumption
• Reduces repairs
• Simple external adjustments
• Long-term energy and repair savings
E.
Large Capacity
Oil Sump
• Assures proper oil levels
H.
Magnetic Drain Plug
• Removes magnetic particles
• Increases bearing life
I.
Heavy Duty Casing
• Class 150 flanges with Class 300
casing wall thickness
•Self-venting
• Back pullout design
• Integral cast feet
• Serrated flange surfaces
• Standard Class 150 FF and optional
Class 150 RF, 300 FF/RF
• Designed for increased
reliability, ease of maintenance
and maximum life
Fully Open Impeller
M.
• Back pump-out vanes
• Reduced radial/thrust loads
• Lower seal chamber pressure
• Double the wear area of a
closed impeller
•
Designed for the toughest
applications including solids
handling, stringy materials,
abrasives and corrosives
Enclosed Impeller
N.
• Low seal chamber pressure
• Lower thrust loads
• NPSHR values are lower
•Packing
• Impeller adjustment in shop
Sealing Options
J.
• Standard bore
• Cooler oil temperature
• Conventional single/double
• Ideal for clear liquids
• Better heat transfer
• Cartridge single/double
• Increased bearing life
• Sealing options to
accommodate almost any fluid and
temperature combinations
• Enclosed impellers have
enhanced performance and maintenance advantages
4
K.
• Oil flooded
B.
Lubrication Flexibility
INDUSTRIAL PROCESS PUMPS
Pump Features
The Model 3560 power and wet ends were developed with the standard features required to
withstand the most difficult applications and maximize mean-time-between-failures (MTBF).
M
N
F
A
D
B
C
J
G
E
I
L
H
K
The Aurora® Model 3560 has a broad range of engineered options and upgrades that will
support a variety of process requirements and meet almost any fluid processing application.
O.
Drivers
P.
• Jacketed casings
• Variable frequency drives
• Jacketed seal chamber
• Electric motors ODP / TEFC / XP
Process Temperature Control
O
T
R.
Q
P
• Bearing frame cooling coil
Seal Flush / Cooling
• Most ASME/ANSI B73.1M seal flush
and cooling plans available
S.
Mounting Baseplates
• Cast Iron in compliance with PIP
• Heavy-duty epoxy resin based polymer
composite to ASME/ANSI B73.1M
T.
Couplings and Guards
• Various coupling options
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Oil Temperature Control
R
S
Q.
• Fabricated steel per ASME/ANSI B73.1M
• OSHA approved coupling guards
5
INDUSTRIAL PROCESS PUMPS
Modular/Dimensional Interchangeability
POWER
END
ADAPTERS
SEAL
CHAMBER
REVERSE
VANE
IMPELLER
OR
FRONT VANE
OPEN STYLE
IMPELLER
CASING
SIZE
GROUP 1
SEAL
CHAMBER
REVERSE
VANE
IMPELLER
OR
FRONT VANE
OPEN STYLE
IMPELLER
CASING
SIZE
1.5x1-6
AA
8x6-14A
A90
3x1.5-6
AB
10x8-14
A100
3x2-6
AC
6x4-16
1.5x1-8
AA
8x6-16A
A110
3x1.5-8
10x8-16
A120
10x8-16H
A120
3x2-8
A60
4x3-8
A70
2x1-10A
A05
3x1.5-10A
A50
3x2-10A
A60
4x3-10
A70
4x3-10H
A70
6x4-10
A80
6x4-10H
A80
3x1.5-13
A20
3x2-13
A30
4x3-13
A40
4x3-13HH*
A40
6x4-13A
A80
6
ADAPTER
GROUP 3
GROUP 2
*In the developmental stage.
POWER
END
INDUSTRIAL PROCESS PUMPS
Pump Dimensions
Y
Notes:
1. All dimensions are in inches.
2. Motor should not extend beyond end of baseplate.
3. Includes 0.13 shimming allowance where motor height controls.
4. Baseplate/Mounting surface width.
Discharge
n
tio
D
Suction
F
HH
E1
E1
HD
HG
Hole Diameter
E2
E2
X
ta
Ro
H
CP
4"
HE
HE
HP
HA
HF
HL
Pump
Group
1
2
3
Pump
Group
1
2
3
Pump Size
Suction x Discharge
1-1/2x1-6
3x1-1/2-6
3x2-6
1-1/2x1-8
3x1-1/2-8
3x2-8
4x3-8
2x1-10A
3x1-1/2-10A
3x2-10A
4x3-10
4x3-10H
6x4-10
6x4-10H
3x1-1/2-13
3x2-13
4x3-13
4x3-13HH
6x4-13A
8x6-14A
10x8-14
6x4-16
8x6-16A
10x8-16
10x8-16H
ANSI
Designation
AA
AB
AC
AA
A60
A70
A05
A50
A60
A70
A40
A80
A80
A20
A30
A40
A40
A80
A90
A100
A110
A120
A120
Pump Weight
kg (lb)
44 (97)
51 (112)
53 (116)
47 (103)
56 (124)
90 (200)
103 (227)
95 (210)
100 (220)
103 (226)
101 (225)
112 (249)
130 (290)
149 (328)
112 (250)
116 (258)
126 (281)
126 (281)
145 (324)
306 (680)
408 (899)
291 (641)
377 (832)
416 (917)
450 (992)
Maximum
Motor Frame
Baseplate
Number
Weight
lb
A Min.
(Note 4)
184T
215T
256T
286T
326TS
184T
215T
286T
326T
365T
405TS
449TS
286T
405T
449T
139
111
148
163
153
212
245
252
258
129
177
234
264
328
268
280
368
380
398
409
481
470
601
746
12
15
15
18
18
12
15
18
18
18
22
22
22
22
22
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HB
X
mm (in)
165 (6-1/2)
D
mm (in)
133 (5-1/4)
E1
mm (in)
76 (3)
E2
mm (in)
0
CP
mm (in)
445 (17-1/2)
F
mm (in)
184 (7-1/4)
H
mm (in)
16 (5/8)
Y
mm (in)
102 (4)
190.5 (7-1/2)
242 (9-1/2)
280 (11)
216 (8-1/2)
216 (8-1/2)
242 (9-1/2)
280 (11)
318 (12-1/2)
343 (13-1/2)
343 (13-1/2)
266 (10-1/2)
292 (11-1/2)
318 (12-1/2)
318 (12-1/2)
343 (13-1/2)
406 (16)
457 (18)
406 (16)
457 (18)
483 (19)
483 (19)
177.8 (7)
210 (8-1/4)
124 (4-7/8)
92 (3-5/8)
597 (23-1/2)
318 (12-1/2)
16 (5/8)
102 (4)
203.2 (8)
114.3 (4-1/2)
860 (33-7/8)
476 (18-3/4)
22 (7/8)
152 (6)
254 (10)
368 (14-1/2)
HA
HB
15
39
18
48
21
53
15
18
21
45
52
58
22
64
26
68
80
68
80
98
D=5.25
9.000
9.500
10.500
11.875
12.875
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
D=7
10.750
11.125
11.125
11.875
12.875
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
HD Max. (Note 3)
D=8.25
D=10
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
12.000
13.750
12.375
14.125
13.000
14.750
13.000
14.750
13.875
14.750
14.875
14.875
15.875
15.875
NA
NA
NA
NA
NA
NA
D=14.5
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
19.250
19.250
19.250
HE
HF
HG Max.
4-1/2
36-1/2
3-3/4
6
45-1/2
4-1/8
7-1/2
50-1/2
4-3/4
4-1/2
6
42-1/2
49-1/2
55-1/2
3-3/4
4-1/8
7-1/2
9-1/2
61-1/2
65-1/2
77-1/2
65-1/2
77-1/2
95-1/2
HH
3/4
4-3/4
1
4-3/4
4-3/4
4-3/4
HP
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
1.25
7
Parts and Material Composition
Item Number
Required Per Pump
Part Name
All Steel
All 316SS
100
103
106
112
113
108
121
105
105
177
201
124
120
106
119
109
110
200
129
118
107
111
111A
140
201B
105
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
4
4
3
1
1
Casing
Impeller
Lantern Ring
Packing
Packing Gland
Frame Adapter
Outboard (Thrust) Bearing
Shaft – Less Sleeve (Optional)
Shaft – With Sleeve
Shaft Sleeve
Bearing Housing
Lock Nut / Lock Washer
Inboard (Radial) Bearing
Seal Box
Bearing Frame
Bearing Frame Foot
Gland
Sight Oil Gauge
Lip Type Oil Seal (Outboard)
Lip Type Oil Seal (Inboard)
Casing Gasket
Gland Stud
Gland Nut
Bearing Housing Hex Bolt
Bearing Housing O-Ring
Impeller O-Ring
Steel
Steel
316SS
316SS
Group
Volute
Nominal Case Thickness (inches)
Corrosive Allowance at Maximum
Working Pressure
Maximum Working PSIG
Hydro Test PSIG at 100˚F
Maximum Liquid Temperature (˚F)
At Coupling (inches)*
Sleeve Diameter Under
Shaft
Seal (inches)
Diameter
Under Sleeve (inches)
Overhang (inches)
1
2
316SS
All CD4MCu
All Titanium
Hastelloy® B&C
Alloy 20
CD4MCu
Alloy 20
CD4MCu
Glass Filled Teflon®
Teflon Impregnated Fibers
Alloy 20
Ductile Iron
Double Row Angular Contact
316SS
Titanium
Titanium
Hastelloy B&C
Hastelloy B&C
Titanium
Hastelloy B&C
Alloy 20
Titanium
Hastelloy B&C
Titanium
Hastelloy B&C
SAE4140
316SS
316SS
Steel
316SS
316SS
Cast Iron
Steel
Single Row Deep Groove
Alloy 20
CD4MCu
Cast Iron (Ductile for Group 1)
Cast Iron
316SS
316SS
Alloy 20
316SS
Optional Labyrinth Oil Seal
Optional Labyrinth Oil Seal
Aramid Fiber with EPDM Rubber
316SS
304SS
Steel
Buna Rubber
Glass Filled TFE
3
single
3/8, 7/16
1/2, 7/16
1/2, 5/8, 9/16
1/8
Limits set by ANSI B16.5
See Pressure / Temperature charts
150% of working pressure at 100˚F (38˚C)
350˚F without cooling / 650˚F with cooling
.875
1.125
2.375
1.375
1.875
2.625
1.125
5.969
1.50
7.688
2.125
10.250
*For 6x4-10 & 6x4-10H the shaft diameter at the coupling end is 1.50".
All Alloy 20
Group
Radial
Bearings
Thrust
Bearing Span
Mechanical Seal Size (inches)
I.D. (inches)
Stuffing
Depth (inches)
Box –
Standard Bore Distance End of Box to
Nearest Obstruction
I.D. (inches)
Stuffing Box –
Depth (inches)
Large
Distance End of Box to
Bore
Nearest Obstruction
Lantern Ring Width (inches)
1
2
3
SKF 6207
SKF 5306 A/C3
3.593
1.375
2.125
2.187
SKF 6310
SKF 5310 A/C3
6.875
1.875
2.625
2.625
SKF 6314
SKF 5314 A/C3
10.50
2.625
3.625
3.250
2.156
3
3.593
2.875
2
3.625
2
4.625
3
2.343
3.625
3.843
.437
.625
.625
800 AIRPORT ROAD, NORTH AURORA, ILLINOIS 60542 WWW.AURORAPUMP.COM
Hastelloy ® is a registered trademark name of Haynes International, Inc.
Teflon ® is a registered trademark of E. I. du Pont de Nemours and Company.
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-02-1062 1/21/13 © 2013 Pentair Ltd. All Rights Reserved.