Data Booklet - Grundfos Express Suite

GRUNDFOS DATA BOOKLET
PACO KP, KPV
Split case pump
60 Hz
PACO KP, KPV
Table of contents
1.
2.
3.
4.
5.
6.
Features and benefits
3
Nameplate
3
Applications
4
Commercial systems
Industrial systems
Water distribution
Irrigation and aquaculture
4
4
4
4
Product range
5
Pump configurations
5
Performance range
6
KP 2-pole
KP 4-pole
KP 6-pole
6
7
8
Construction
9
KP pump, construction X2
KP pump, construction X4
KP pump, construction X5 and X7
KP pump, construction XK and XV
KP pump, typical end view - Horizontal
Std. components and material specification
Mechanical construction
9
10
11
12
13
14
15
Operating conditions
18
Ambient temperature and altitude
Liquid temperatures and shaft seals
Shaft seal
Pressure
Flow
KP Impeller Max Sphere Size
KP model number and construction code
18
18
18
18
19
19
20
7.
8.
2
Curve charts and technical data
21
How to read the curve charts
Curve conditions
Performance tests
Witness test
KP 2095-1/2 [2-pole]
KP 3095-7/8 [2-pole]
KP 4012-1/2 [2-pole]
KP 4012-7/8 [2-pole]
KP 2095-1/2 [4-pole]
KP 2013-5/6 [4-pole]
KP 3095-7/8 [4-pole]
KP 3014-7/8 [4-pole]
KP 4012-1/2 [4-pole]
KP 4012-7/8 [4-pole]
KP 4015-9/0 [4-pole]
KP 5012-7/8 [4-pole]
KP 5015-9/0 [4-pole]
KP 6012-3/4 [4-pole]
KP 6015-3/4 [4-pole]
KP 6019-7/8 [4-pole]
KP 6020-3/4 [4-pole]
KP 8012-5/6 [4-pole]
KP 8015-3/4 [4-pole]
KP 8020-5/6 [4-pole]
KP 1012-1/2 [4-pole]
KP 1015-3/4 [4-pole]
KP 1020-3/4 [4-pole]
KP 1024-3/4 [4-pole]
KP 1415-1/2 [4-pole]
KP 6019-7/8 [6-pole]
KP 6020-3/4 [6-pole]
KP 8015-3/4 [6-pole]
KP 8020-5/6 [6-pole]
KP 1012-1/2 [6-pole]
KP 1015-3/4 [6-pole]
KP 1020-3/4 [6-pole]
KP 1024-3/4 [6-pole]
KP 1220-5/6 [6-pole]
KP 1415-1/2 [6-pole]
21
22
22
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
Bare shaft pump
58
1
PACO KP, KPV
The double-suction design reduces axial forces by
directing flow into both sides of the impeller. The
double-volute design, available on most models,
reduces the radial load and minimizes noise and
vibration. Shaft sleeves are used to protect the shaft
from corrosion and wear, thus extending the overall life
of the shaft and the pump.
Fig. 1
KP pump with motor and base
Fig. 2
KP bare shaft pump with base, coupling, and
guard
Fig. 3
KP bare shaft pump
TM05 5003 2712
Ease of service and long-term reliability are two of the
selling features of the KP pumps. The split case design
enables removal and dismantling of the internal pump
parts (bearings, wear rings, impeller, and shaft seals)
without disturbing the motor or pipe work. The twobearing design means less vibration and higher
reliability. The separate bearing housings allow for
inspection of the seals, sleeves and bearings without
removing the top half of the casing.
TM04 7331 1910
The Paco KP horizontal split case pump and KPV
vertical split case pump are single stage, centrifugal
volute pumps with high energy efficiency and low lifecycle costs.
Features and benefits
1. Features and benefits
KP pumps cover this performance range:
Paco KP pumps are available in these different
options:
• Pump with motor and base (see fig. 1).
• Bare shaft pump, i.e. pump without motor, with base
(see fig. 2).
• Bare shaft pump, i.e. pump without motor, without
base (see fig. 3).
• Or any combination requested by the customer
Nameplate
TM05 7638 1313
The pumps are non-self-priming, centrifugal volute
pumps with radial suction and radial discharge ports
and horizontal shaft. Impellers are hydraulically
balanced.
TM05 5875 3912
• Flow rate: 60 to 12000 gpm [10 to 2700 m3/h]
• Head: 15 to 700 ft [5 to 215 m]
• Motor (P2): 10 to 2000 hp
KPV pumps
• Same great features of KP, but in a vertical
configuration for optimized space savings
• Optional lower sleeve bearing design for easier
lower bearing maintenance.
3
2
PACO KP, KPV
Applications
2. Applications
The Paco KP pumps are used in these main fields of
application:
• commercial systems
• industrial systems
• water distribution
• irrigation.
Liquid transfer and pressure boosting in:
• air conditioning, primary and secondary chilled
water systems
• water condensing systems and cooling towers
• boiler feed and condensate systems
• district heating plants and heating systems
• swimming pools
• fountains.
TM05 5977 4012
Commercial systems
Fig. 4
KP pump used in commercial building applications
Fig. 5
KP pump in sprinkler irrigation
Industrial systems
Water distribution
Liquid transfer and pressure boosting in:
• public waterworks
• non-potable water systems.
Irrigation and aquaculture
Irrigation covers these applications:
• field irrigation (flooding)
• sprinkler irrigation
• drip-feed irrigation
• aqua farming.
4
GR 2910
Liquid transfer and pressure boosting in:
• process cooling and chilled water systems
• water condensing systems and cooling towers
• boiler feed and condensate systems
• industrial heating systems
• wash down and cleaning systems
• industrial processing systems (water, light
chemicals, oils, etc).
3
PACO KP, KPV
Product range
3. Product range
Pump configurations
Standard configuration
Optional configuration
Pump casing
Cast Iron
Ductile Iron
Impeller
Bronze
• Cast Iron
• Aluminium bronze
• Stainless steel
Sleeve
Bronze
Stainless steel
Coupling
•
•
Spacer Coupling
Shaft seal
Mechanical seal:
Flange
ANSI 125
ANSI 250
Flushing line
None
• Nylon
• Copper
• Stainless Steel
Wear rings
Bronze
Stainless Steel
Shaft
Steel
Stainless Steel
Motor efficiency class
NEMA Premium
Others on request
Pump direction of rotation
CW - clockwise
CCW - counter clockwise
Elastomeric
Grid
Soft packing
To a great extent the pumps can be adapted to the
requirements of the individual customer. For
customized solutions, contact your local Grundfos
company.
5
4
PACO KP, KPV
Performance range
4. Performance range
Paco KP pumps are available with 2-, 4- or 6-pole
motors. 8 and 10 pole are available on request.
The next three pages show the performance range
covered by these three motor types.
Knowing your required duty point, use the performance
ranges like this:
1.
2.
3.
4.
Go into the relevant performance range chart.
Find your duty point.
Note which pump type covers your duty point.
Go to section "Product range" and then to
"Performance curves and technical data" and find
more detailed information on your chosen pump.
6
90 100
70
60
23
TM05 5045 3812
80
25
100
30
120
40
150
50
200
60
70
80
300
90
500
400
100
H
[m]
H
[ft]
100
30
150
40
200
50
250
300
2095-1/2
80
400
500
600
3095-7/8
800
200
1000
4012-1/2
300
Q [m³/h]
2000
1500
Q [US GPM]
4012-7/8
3550 rpm, 60 Hz
KP
KP 2-pole
TM05 5978 3812
10
20
30
40
50
80
70
60
100
200
H
[m]
15
20
25
40
50
60
80
100
150
200
250
400
500
600
800
H
[ft]
23
100
30
150
40
2095-1/2
2013-5/6
50 60 70 80
200 250 300
4012-1/2
100
400 500 600
3095-7/8
3014-7/8
200
800 1000
4012-7/8
4015-9/0
5015-9/0
300
6015-3/4
6020-3/4
8015-3/4
400 500 600
6000
1012-1/2
1015-3/4
8020-5/6
800 1000
3000 4000
8012-5/6
6012-3/4
1500 2000
5012-7/8
6019-7/8
1024-3/4
KP
15000
KP 4-pole
Performance range
2000 Q [m³/h]
Q [US GPM]
10000
1415-1/2
1020-3/4
1780 rpm, 60 Hz
PACO KP, KPV
4
7
8
10
12
15
20
30
40
50
60
80
100
120
150
200
300
TM05 5047 3812
4
5
8
7
6
10
20
30
40
50
80
70
60
100
400
H
[ft]
100
400
500
600
200
800
6019-7/8
1000
1500
300
8015-3/4
400
500
2000
6020-3/4
1415-1/2
1020-3/4
5000 6000
1000
4000
600 700 800
2500 3000
1012-1/2
1015-3/4
8020-5/6
1024-3/4
2000
15000
Q [m³/h]
Q [US GPM]
8000 10000
1220-5/6
1180 rpm, 60 Hz
KP
Performance range
H
[m]
4
PACO KP, KPV
KP 6-pole
5
PACO KP, KPV
Construction
5. Construction
Paco KP horizontal split case pumps are available in
several different construction types.
KP pump, construction X2
All four construction types are available with packing
as an option.
TM03 9952 4707
Sectional view
Fig. 6
Sectional view, construction X2, with mechanical shaft seals
9
5
PACO KP, KPV
Construction
KP pump, construction X4
Sectional view
66 20e 45
11
17
49 6a
109 114
53 113e
116b
113c
195
51
113d
11a
54
114a
79
124
116a
6b
24
TM05 7482 1013
105
Fig. 7
10
Sectional view, construction X4, with mechanical shaft seals
5
PACO KP, KPV
Construction
KP pump, construction X5 and X7
TM03 9954 4707
Sectional view
Fig. 8
Sectional view, construction X5/X7, with mechanical shaft seals
11
5
PACO KP, KPV
Construction
KP pump, construction XK and XV
TM03 9955 4707
Sectional view
Fig. 9
12
Sectional view, construction XK/XV, with mechanical shaft seals
5
PACO KP, KPV
Construction
KP pump, typical end view - Horizontal
TM04 1864 1108
(Non-drive end)
Fig. 10 Typical end view (non-drive end)
13
5
PACO KP, KPV
Construction
Std. components and material specification
Pos. no. Component
ASTM standard
ASTM A48 CL35
6a
Pump casing, upper
Cast Iron
6b
Pump casing, lower
Cast iron
11
Key, impeller
Steel
C1018, cold drawn steel
11a
Key, coupling
Steel
C1018, cold drawn steel
17
Pipe plug
Steel
20
Drain plug R 1/2
Steel
20a
Plug, drain outlet
Steel
20b
Plug, inlet
Steel
20c
Plug, outlet
Steel
ASTM A48 CL35
20d
Plug, shaft seal flushing
Steel
20e
Plug, suction chamber
Steel
24
Locking pin, wear ring
Steel
ANSI/ASME B18.8
26b
Roll pin
Steel
ANSI/ASME B18.8
26c
Screw
Steel
45
Wear ring
Bronze
ASTM B148, C95200
45b
Wear ring with groove for retaining ring
Bronze
ASTM B148, C95200
49
Impeller
Silicon bronze
ASTM B584, C87600
51
Shaft
Steel
AISI 1144 Stress proof
53
Ball bearing, drive end
Steel
54
Ball bearing, non-drive end
Steel
54c
Washer
Steel
54d
Retaining ring
Carbon Spring Steel
58
Seal cover
Grey Iron
58a
Screw
Steel
65
Retaining ring
Stainless steel, series 303
66
O-ring
NBR
Impeller/shaft sleeve nut, right-hand thread
Bronze
Impeller/shaft lock nut, right-hand thread
Stainless steel
67a
Impeller/shaft sleeve nut, left-hand thread
Bronze
Impeller/shaft lock nut, left-hand thread
Stainless steel
72a
Gasket
Vegetable fiber (HYD-401)
76
Nameplate
Aluminum
79
Slinger
Neoprene
105
Shaft seal
67b
14
Material
SAE 1060-1090
lll932, C89835
lll932, C89835
109
O-ring
NBR
109a
O-ring
NBR
110
O-ring
NBR
113
Bearing housing
Cast iron
ASTM A48, CL30
113c
Bearing cover, drive end
Cast iron
ASTM A48, CL30
113d
Bearing cover, non-drive end
Cast iron
ASTM A48, CL30
113e
Gasket
Vegetable fiber
113f
Lip seal, non-drive end bearing
NBR
113g
Lip seal, drive-end bearing
NBR
114
Screw
Steel
114a
Screw
Steel
114b
Screw
Steel
116
Shaft sleeve
Bronze
III932, C89835
116a
Shaft sleeve, drive end
Bronze
I836 C89833
116b
Shaft sleeve, non-drive end
Bronze
I836 C89833
116c
Shaft sleeve, inner
Bronze
I836 C89833
116d
Shaft sleeve, outer
Bronze
I836 C89833
116e
Set screw
Steel
124
Seal housing
Cast iron
195
Lubricating nipple
Zinc coated steel
ASTM A48 CL30
5
PACO KP, KPV
Mechanical construction
Construction
Bearings
KP pumps are fitted with two standard single-row
deep-groove ball bearings. The bearings are of the
open type permitting the bearings to be relubricated.
The bearings are lubricated by Grundfos prior to
delivery.
Pump casing
The class 35 grey iron volute pump casing has radial
suction port and radial discharge port.
The pumps are of the inline (symmetric) design.
TM04 0476 0708
Seal housings
Fig. 11 Schematic drawing of an inline KP pump
Flange Drillings are in accordance with ANSI #125 or
#250.
All KP pumps have two seal housings (pos. 124), one
at the drive end and one at the non-drive end of the
pump shaft.
A seal housing has several functions:
• Supports the pump sealing system, whether it is a
mechanical shaft seal or packing
• Supports the bearing housing thus transmitting both
radial and axial forces from bearing and shaft to the
upper and lower pump casing
• Has a connection for the flushing pipe.
The function of the flushing pipe is to ensure a flow
of pumped liquid for cooling and lubricating the
mechanical shaft seal or the packing
Impeller
TM03 3891 1106
TM04 0475 0708
The KP impeller (pos. 49) is a closed double-suction
impeller. The impeller has inflow of liquid from both
sides and is locked in position by a threaded sleeve
arrangement.
Fig. 12 Upper and lower pump casing of KP pump
Shaft
The shaft (pos. 51) is of the key and keyway type with
one key for the impeller (pos. 11) and one key for the
coupling (pos. 11a).
The shaft is supported by bearings at both the drive
end and the non-drive end of the pump.
Fig. 14 Double-suction impeller
All impellers are dynamically balanced in accordance
with ANSI/ISO 1940 Class G6.3 standard. Due to their
design, the impellers are inherently hydraulically
balanced and thus compensate for axial thrust.
All impellers are trimmed to the duty point required by
the customer.
TM04 0477 0708
Wear rings
Fig. 13 KP pump shaft
Shaft sleeves are attached to the pump shaft to
prevent wear of the shaft and secure the position of the
impeller.
KP pumps have wear rings (pos. 45) between impeller
and pump casing. As the name indicates, the wear
rings protect the pump casing against wear. The wear
rings act as a seal between impeller and pump casing.
When the wear rings become worn, the efficiency of
the pump will be reduced and the wear rings should be
replaced.
Coupling
As standard, KP pumps are fitted with a flexible grid
coupling or elastomeric coupling, depending or motor
size. The grid coupling consists of two steel flanges
horizontally split coupling halves.
15
5
PACO KP, KPV
The packing rings consist of braided material which is
effective for long service life for packing rings while
protecting the shaft sleeve.
TM04 1849 1108
TM04 0478 0708
Construction
The coupling design assists in reducing vibrations and
cushions shock loads. The design also extends the life
of the coupling itself. The flexible grid is standard for
VFD driven pumps.
Fig. 15 Flexible grid coupling
The elastomeric coupling has a flexible rubber section
to absorb vibrations and minimizes negative affects of
misalignment.
Fig. 18 Sectional view of packing with internal flushing
liquid
Pos.
TM05 5784 3812
1
Mechanical shaft seal
The material of the standard version is Buna Carbon/
ceramic.
Includes graphite impregnated packing rings.
16
Gland
3
Packing ring
4
Lantern ring
A
Drilled hole for flushing liquid (pumped liquid)
Base
Painting
Prior to delivery to the customer, pump, motor and
base are top coated with a blue paint (RAL 5015);
coating thickness is 2 to 4 mils.The inside of the pump
is primered for corrosion resistance. Standard units are
not painted internally.
TM04 0472 0708
Packing
2
Pump and motor are mounted on a common base
frame designed according to Hydraulic Institute
standard, ANSI/HI 1.3-2000.
Fig. 16 elastomeric coupling
Fig. 17 Rubber bellows shaft seal
Description
Shaft sleeve
5
PACO KP, KPV
Construction
Test pressure
Pressure testing is made with water at ambient
temperature. The standard hydrostatic test pressure is
1.5 times the flange rating pressure.
KP Case working pressure limitations at 150 °F: Flat-face flanges
Chart A
Class 125 lb flange drilling (psi)
Class 250 lb flange drilling (psi)
CWP
Hydro
CWP
Hydro
175
175
265
265
250
400
375
600
Cass material
Cast iron
Ductile iron
All sizes except as Chart B indicates
Chart B
Maximum case working pressure (class 125 Flange)
Pump model number
6019
6020
8020
Cast iron
1020
1024
1220
175 psi
Ductile iron
Maximum case working pressure (class 250 Flange)
Pump model number
6019
6020
8020
1020
1024
1220
Cast iron
250 psi
250 psi
234 psi
222 psi
250 psi
211 psi
Ductile iron
375 psi
375 psi
351 psi
333 psi
375 psi
317 psi
CWP: maximum Case Working Pressure based upon flange drilling. Maximum working pressure for a given application is determined by adding the
maximum available suction pressure to the shut-off head of a given impeller diameter.
Hydro: Is the hydrostatic test pressure applied to the pump. Minimum hydrostatic test pressure is 1.5 times maximum allowable case working pressure.
17
6
PACO KP, KPV
Operating conditions
6. Operating conditions
Ambient temperature and altitude
Carbon/Ceramic
The ambient temperature and the installation altitude
are important factors for the motor life, as they affect
the life of the bearings and the insulation system.
Ambient temperature must not exceed 104 °F [+ 40
°C]. If the ambient temperature exceeds 104 °F [+ 40
°C] or if the motor is installed more than 3280 ft [1000
m] above sea level, the motor must not be fully loaded
due to the low density and consequently low cooling
effect of the air. In such cases, it may be necessary to
use a motor with a higher output, or use a motor that is
designed for the specified ambient conditions.
P2
[%]
110
100
90
80
70
60
20 25 30 35 40 45 50 55 60 65 70 T [°C]
70
80
90 100 110 120 130 140 150 160 T [°F]
3280
7382
11483
15584
[ft]
TM00 2189 1598
50
Fig. 19 Relationship between motor output (P2) and
ambient temperature
Liquid temperatures and shaft
seals
The maximum liquid temperature marked on the pump
nameplate depends on the mechanical shaft seal used:
• Temperature range for Buna - standard):
32 °F to 212 °F [0 °C to +100 °C].
• Temperature range for Viton
54 °F to 212 °F [+15 °C to +100 °C].
• Temperature range for EPDM
54 °F to 275 °F [+15 °C to +135 °C].
Shaft seal
The materials of the shaft seal types used in KP pumps
have certain characteristics. These characteristics may
be of importance when choosing the shaft seal for the
pump.
The seal has the following features:
• Brittle material requiring careful handling.
• Worn by liquids containing solid particles.
• Limited corrosion resistance, 5 < pH < 9, depending
on ceramic type.
• The carbon of the seal offers properties very similar
to the carbon/tungsten carbide seal. However,
compared to the carbon/tungsten carbide seal, the
pressure and temperature ranges are limited.
Carbon/silicon carbide
Seals with one carbon seal face have the following
features:
• Brittle material requiring careful handling
• Worn by liquids containing solid particles
• Good corrosion resistance
• The self-lubricating properties of carbon make the
seal suitable for use even with poor lubricating
conditions (high temperatures) without generating
noise. However, such conditions will cause wear of
the carbon seal face leading to reduced seal life.
Buna
NBR (nitrile) rubber covers a wide range of liquids at
temperatures below 212 °F [+100 °C].
• Good mechanical properties
• Standard material
Viton
FKM rubber covers a very wide range of liquids and
temperatures.
• Poor mechanical properties at low temperatures
• Resistant to water up to 275 °F [+135 °C]
• Resistant to mineral oils and vegetable oils
• Not resistant to alkaline liquids at high
temperatures.
EPDM
EPDM Rubber covers a wider range of liquids up to a
max temperature of 275 °F [135 °C].
• Good mechanical properties.
Pressure
Maximum inlet pressure
Inlet pressure + pump pressure must always be lower
than maximum pressure of the pump.
Minimum inlet pressure
The minimum inlet pressure must correspond to the
NPSH curve for the pump.
18
6
PACO KP, KPV
Operating conditions
Flow
Minimum flow rate
The pump must not run against a closed discharge
valve, as this will cause an increase in temperature/
formation of steam in the pump. This may cause shaft
damage, impeller erosion, short life of bearings, stuffing
boxes with packing rings or mechanical seals due to
stress or vibration.
The minimum, continuous flow rate must be at least
25% of the flow rate at best-efficiency point (BEP).
KP Impeller Max Sphere Size
Split Case Model
Max Sphere Size [inches]
2095-1/2
0.19
2013-5/6
0.16
3095-7/8
0.31
3014-7/8
0.31
4012-1/2
0.38
4012-7/8
0.75
4015-9/0
0.25
5012-7/8
0.63
5015-9/0
0.75
6012-3/4
1.00
6015-3/4
0.81
6019-7/8
0.75
6020-3/4
0.75
8012-5/6
0.88
8015-3/4
1.00
8020-5/6
1.03
1012-1/2
1.00
1015-3/4
1.25
1020-3/4
1.20
1024-3/4
1.17
1220-5/6
1.87
1415-1/2
1.25
19
PACO KP, KPV
KP model number and
construction code
Example
29
Materials of construction
60123
140001
1852
Product code
Model code
Materials of construction
Motor code
Production code
29
29: Split case
Model code
60
12
3
Pump discharge
20 = 2"
30 = 3"
40 = 4"
50 = 5"
60 = 6"
80 = 8"
10 = 10"
12 = 12"
14 = 14"
Nominal maximum impeller diameter
95 = 9.5"
12 = 12"
13 = 13"
14 = 14"
15 = 15"
19 = 19"
20 = 20"
24 = 24"
Impeller design
Clockwise rotation:
1, 3, 5, 7, 9
Counter clockwise rotation:
0, 2, 4, 6, 8
Materials of construction
Packing or seal
3 = Standard Packing
1 = Type 21, Single Seal, Ceramic Seat, Buna
2 = Type 21, Single Seal, Tung Crbd Seat, Viton
6 = Type 21, Single Seal, Ni-Resist Seat, Viton
7 = Type 21, Single Seal, Ni-Resist Seat, Buna
8 = Type 1B, Single Seal, Ni-Resist Seat, Buna
9 = Type 21, Single Seal, Ni Resist Seat, Viton
A = Type 1, Single Seal, Ceramic Seat, Buna
B = Type 1, Single Seal, Ni-Resist Seat, Viton
C = Type 1, Single Seal, Tung Cbrd Seat, Viton
D = Type 1, Singel Seal, Ni Resist Seat, Buna
E = Type 1, Single Seal, Ceramic Seat, Buna
F = Type 1, Single Seal, Si Cbrd Seat, EPDM
ID of packing or seal
2 = 1"
3 = 1-1/4"
E = 1-1/2"
4 = 1-3/4"
5 = 2-1/4"
6 = 2-3/4"
7 = 3"
K = 3-1/2"
V = 4"
General configuration (horizontal)
Code no
Item
00
Std.
01
Dbl- wear rings
02
Oil lube brgs
03
(01) + (02)
04
(01) + (05)
05
Recirc lines
20
Dbl Ext Shaft
21
Dbl Wear Rings
22
Recirc Lines
20
1
4
00
0 1
1
4
00
0 1
24
(21) + (22)
30
Dbl Ext Shaft
31
Dbl Wear Rings
General configuration (horizontal)
Code no
Item
32
Recirc Lines
34
(31) + (32)
70
250 lb. Flange
71
Dbl Wear Rings
72
(71) + (73)
73
Recirc Lines
90
250 lb. Flange
91
Dbl Wear Rings
General configuration (Vertical)
Code no
Item
50
Std
51
Dbl. Wear Rings
52
Sleeve Bearing
80
250 lb. flamge
81
Dbl. Wear Rings
82
Sleeve Bearing
92
250 lb. flamge
93
Dbl. Wear Rings
Shaft/Sleeve Metallurgy
0 = Steel/Bronze
1 = Steel/S.S.
3 = S.S.l/Bronze*
6 = S.S./S.S. or S.S./no sleeves
7 = SS/Hard. SS
A = 316 SS/Ni Al Bz
X = Special
Pump Metallurgy
1 = Brz. Fitted
2 = Std. All Bronze
5 = All Iron
8 = Ductile Iron/Brz. Fitted
X = Special
Motor code
1
Enclosure
1 = ODP
2 = TECF
3 = explosion proof
Voltage
1 phase
HP
115/230 V
1/3
21
1/2
29
3/4
35
1
41
1-1/2
47
2
53
3
59
5
65
7-1/2
71
10
76
15
-20
-25
-30
-40
-50
60
75
100
125
150
200
250
300
RPM
1 = 3500
2 = 1750
3 = 1150
----------
200 V
23
31
37
43
49
3 phase
230/460 V
24
32
38
44
50
55
61
67
73
77
56
62
68
74
78
81
84
01
02
03
04
05
06
07
------
82
85
87
88
89
90
91
92
93
94
95
96
97
98
78
2
7
PACO KP, KPV
Curve charts and technical data
7. Curve charts and technical data
How to read the curve charts
Size of impeller
d
H
[m]
H
[ft]
/9.5
420
120
Total pump
head
H = Htotal
KP 2095-1/2
60 Hz, n = 3550 rpm
400
380
110
/8.75
360
Pump type and
speed
340
100
90
320
/8.125
300
QH curve for the
individual pump.
The bold curve indicates
the recommended
performance range.
280
80
/7.5
260
240
70
60
220
/6.75
200
180
40
160
140
NPSH
[ft] [m]
120
30
20
10
100
100
80
80
60
60
40
40
NPSH
20
0
0
P2
[kW]
100
50
100
150
200
250
300
350
400
450
500
550
Eff
[%]
140
70
120
60
/6.75
/7.5
/8.125
/8.75
/9.5
100
80
0
The eta curves
show the efficiency
of the pumps shown
40
60
30
/8.75
/8.125
40
20
0
50
/9.5
40
10
The NPSH curve
is an average
curve for all
variants shown.
Q [US GPM]
P2
[hp]
80
60
20
20
0
0
30
20
/7.5
/6.75
20
10
0
0
0
0
50
100
20
150
200
250
40
60
300
350
80
400
The power curves
indicate pump input
power [P2] for the
pumps shown
450
100
500
550
120
Q [US GPM]
140
Q [m³/h]
TM05 5009 3212
50
Reference the Express Suite selection tool for
selections in additional speeds.
21
7
PACO KP, KPV
Curve charts and technical data
Curve conditions
Performance tests
The guidelines below apply to the curves shown in the
performance charts.
• Tolerances according to: Hydraulic Institute.
• The curves show pump performance with different
impeller diameters at the nominal speed.
• The bold part of the curves show the
recommended operating range.
• Do not operate the pump along the thin parts of the
curves. If your duty point lies here, you should
select a smaller or larger pump type.
• Do not use the pumps at minimum flows below 0.1 x
Qmax stated on the pump name plate because of the
risk of overheating of the pump.
• The curves apply to the pumping of airless water at
a temperature of 77 °F [+20 °C] and a kinematic
viscosity of 1 cSt [1 mm2/s].
• ETA: The lines show values of the hydraulic
efficiency of the pump for the different impeller
diameters.
• NPSH: The curves show average values measured
under the same conditions as the performance
curves.
When sizing the pump, add a safety margin of at
least 1.6 ft [0.5 m].
• In case of other densities than 62.3 lb/ft3 [1000 kg/
m3] the discharge pressure is proportional to the
density.
• When pumping liquids with a specific gravity higher
than 1.0, motors with correspondingly higher
outputs must be used.
Requested tests are performed according to Hydraulic
Institute. Performance tests are only completed when
ordered with the pump.
Calculation of total head
The total pump head consists of the height difference
between the measuring points + the differential head +
the dynamic head.
H total
22
=
H geo
+ Hstat + Hdyn
Hgeo :
Height difference between measuring points.
Hstat :
Differential head between suction and the discharge side of
the pump.
Hdyn :
Calculated values based on the velocity of the pumped
liquid on the suction and the discharge side of the pump.
Witness test
When the pumps are being tested it is possible for the
customer to witness the testing procedure according to
Hydraulic Institute.
If the customer wants to witness the pump test this
request must be submitted with the order.
7
PACO KP, KPV
H
[m]
H
[ft]
/9.5
420
120
Curve charts and technical data
KP 2095-1/2 [2-pole]
KP 2095-1/2
60 Hz, n = 3550 rpm
400
380
110
/8.75
360
340
100
90
320
/8.125
300
280
80
/7.5
260
240
70
60
220
/6.75
200
180
50
40
160
140
NPSH
[ft] [m]
120
30
20
10
100
100
80
80
60
60
40
40
NPSH
20
0
0
P2
[kW]
100
50
100
150
200
250
300
350
400
450
500
550
10
0
Q [US GPM]
P2
[hp]
Eff
[%]
140
70
120
60
80
/6.75
/7.5
/8.125
/8.75
/9.5
100
60
20
20
0
0
30
50
80
40
/9.5
60
/8.125
40
20
0
30
/8.75
20
/7.5
/6.75
20
10
0
0
0
0
50
100
20
150
200
40
250
60
300
350
80
400
450
100
500
550
120
Q [US GPM]
140
Q [m³/h]
TM05 5009 3212
40
23
7
PACO KP, KPV
Curve charts and technical data
KP 3095-7/8 [2-pole]
H
[m]
H
[ft]
420
120
KP 3095-7/8
/9.5
60 Hz, n = 3550 rpm
400
380
110
360
/8.75
340
100
90
320
300
/8
280
80
260
/7.25
240
70
220
60
200
/6.5
180
50
160
140
40
NPSH
[ft] [m]
120
30
20
10
100
100
80
80
60
60
40
40
NPSH
20
0
0
P2
[kW]
100
100
200
300
400
500
20
10
20
0
0
30
600
700
800
900
1000Q
0
[US GPM]
P2
[hp]
Eff
[%]
160
80
140
70
/8.75
120
80
100
/8
/7.25
/6.5
/9.5
/9.5
60
50
/8.75
60
80
40
/8
60
30
/7.25
40
20
0
20
10
0
0
0
0
24
20
/6.5
100
200
50
300
400
100
500
600
700
150
800
900
200
1000Q
[US GPM]
Q [m³/h]
TM05 5010 3212
40
7
PACO KP, KPV
H
[m]
H
[ft]
440
130
120
Curve charts and technical data
KP 4012-1/2 [2-pole]
KP 4012-1/2
/10.3
420
60 Hz, n = 3550 rpm
400
380
110
360
/9.4
340
100
90
320
300
/8.4
280
80
260
240
70
60
/7.5
220
200
180
50
40
30
20
10
/6.5
160
NPSH
[ft] [m]
140
120
120
100
100
80
80
60
60
40
40
NPSH
20
0
0
0
100
200
300
400
500
600
700
800
900 1000 1100 1200 1300 1400
80
280
240
50
/10.3
160
120
/8.4
80
/6.5
40
30
/9.4
40
70
60
/7.5
/6.5
200
0
/10.3
/9.4
/8.4
160
40
0
Eff
[%]
320
80
10
Q [US GPM]
P2
P2
[kW] [hp]
120
20
20
0
200
30
20
/7.5
10
0
0
0
0
100
200
50
300
400
100
500
600
700
150
800
900 1000 1100 1200 1300 1400
200
250
300
Q [US GPM]
Q [m³/h]
25
7
PACO KP, KPV
Curve charts and technical data
KP 4012-7/8 [2-pole]
H
[m]
120
H
[ft]
400
KP 4012-7/8
/9.4
60 Hz, n = 3550 rpm
380
110
360
/8.8
340
100
90
320
300
/8.2
280
80
260
/7.6
240
70
220
60
/7.0
200
180
50
40
30
20
10
160
NPSH
[ft] [m]
140
120
120
100
100
80
80
60
60
40
40
NPSH
20
0
0
0
200
400
600
800
1000
1200
1400
1600
1800
2000Q
[US GPM]
P2
P2
[kW] [hp]
Eff
[%]
400
80
350
70
/9.4
300
250
100
0
200
40
/7.6
/7.0
150
/9.4
/8.2
/7.0
50
/8.8
30
20
/7.6
10
0
0
0
0
26
50
/8.2
100
50
60
/8.8
200
150
20
10
20
0
250
30
200
400
100
600
800
200
1000
1200
1400
300
1600
1800
400
2000Q
[US GPM]
Q [m³/h]
0
7
PACO KP, KPV
H
[m]
Curve charts and technical data
KP 2095-1/2 [4-pole]
H
[ft]
KP 2095-1/2
35
110
60 Hz, n = 1780 rpm
/9.5
30
100
90
25
/8.75
80
/8.125
70
20
/7.5
60
15
/6.75
50
40
NPSH
[ft] [m]
10
30
30
8
20
20
10
10
6
5
4
2
NPSH
0
0
0
P2
[kW]
10
20
40
60
80
100
120
140
160
180
200
220
240
260
P2
[hp]
Eff
[%]
14
70
12
60
8
/7.5
/6.75
/8.125
/8.75
10
6
4
/9.5
/9.5
8
/8.75
6
50
40
30
/8.125
4
20
/7.5
2
/6.75
2
0
0
Q [US GPM]
10
0
0
0
0
20
40
10
60
80
100
20
120
140
30
160
180
40
200
220
50
240
260
60
Q [US GPM]
Q [m³/h]
TM05 5013 3912
0
27
7
PACO KP, KPV
Curve charts and technical data
KP 2013-5/6 [4-pole]
H
[m]
H
[ft]
KP 2013-5/6
60
60 Hz, n = 1780 rpm
200
/13
180
50
/12
160
140
/11
40
120
30
/10
100
/9
80
NPSH
[ft] [m]
20
60
30
8
40
20
20
10
6
10
4
0
NPSH
0
0
0
P2
[kW]
2
40
80
120
160
200
240
280
320
360
0
Q [US GPM]
P2
[hp]
Eff
[%]
60
60
40
50
/13
50
/12
30
40
/10
/11
40
/9
30
30
/13
20
/12
10
10
0
/9
/10
10
0
0
0
0
28
20
/11
40
80
20
120
160
200
40
240
280
60
320
360
80
Q [US GPM]
Q [m³/h]
TM05 5014 3912
20
7
PACO KP, KPV
H
[m]
Curve charts and technical data
KP 3095-7/8 [4-pole]
H
[ft]
KP 3095-7/8
35
110
60 Hz, n = 1780 rpm
/9.5
30
100
90
25
/8.75
80
/8
70
20
15
60
/7.25
50
/6.5
40
NPSH
[ft] [m]
10
30
15
4
20
10
3
5
2
NPSH
10
5
1
0
0
0
P2
[kW]
20
50
100
150
200
250
300
350
400
450
500 Q
P2
[hp]
Eff
[%]
32
80
28
70
/9.5
24
16
/6.5
/7.25
/8.75
/8
20
12
8
0
60
50
16
/9.5
/8.75
12
40
30
/8
8
4
0
[US GPM]
20
/7.25
/6.5
4
10
0
0
0
0
50
100
20
150
200
40
250
60
300
350
80
400
450
100
500 Q
[US GPM]
120
Q [m³/h]
TM05 5015 3912
0
29
7
PACO KP, KPV
Curve charts and technical data
KP 3014-7/8 [4-pole]
H
[m]
H
[ft]
KP 3014-7/8
70
/14.0
220
60
60 Hz, n = 1780 rpm
200
/13.0
180
50
/12.0
160
140
/11.0
40
120
/10.0
30
100
80
NPSH
[ft] [m]
20
60
60
40
40
15
10
10
20
20
NPSH
0
0
0
200
300
400
500
600
700
800
P2
[hp]
Eff
[%]
60
40
/12.0
/11.0
/10.0
/14.0
/13.0
/14.0
50
30
20
/13.0
40
60
40
/11.0
30
/10.0
10
10
20
0
10
0
0
30
70
50
/12.0
30
20
0
0
Q [US GPM]
100
200
50
300
400
500
100
600
700
150
800
Q [US GPM]
200
Q [m³/h]
TM05 5016 3912
P2
[kW]
100
TM05 5016 3212
0
5
7
PACO KP, KPV
H
[m]
H
[ft]
40
130
Curve charts and technical data
KP 4012-1/2 [4-pole]
KP 4012-1/2
60 Hz, n = 1780 rpm
/11.0
120
35
110
30
100
/9.9
90
25
80
/8.7
70
20
60
/7.6
15
50
NPSH
[ft] [m]
40
10
40
/6.5
30
30
12
10
8
20
20
6
5
10
0
25
100
200
300
400
500
600
700
40
80
35
70
/8.7
/7.6
25
0
60
/11.0
/6.5
20
50
40
/9.9
15
30
/8.7
10
5
/11.0
/9.9
0
Q [US GPM]
Eff
[%]
30
10
900
P2
[hp]
20
15
800
20
/7.6
5
10
/6.5
0
0
0
0
100
200
50
300
400
500
100
600
700
150
800
900
200
Q [US GPM]
Q [m³/h]
TM05 5017 3912
P2
[kW]
2
0
0
4
TM05 5017 3212
0
10
NPSH
31
7
PACO KP, KPV
Curve charts and technical data
KP 4012-7/8 [4-pole]
H
[m]
H
[ft]
KP 4012-7/8
/12.0
160
60 Hz, n = 1780 rpm
45
150
140
40
/10.8
130
120
35
110
30
/9.5
100
90
25
80
/8.3
70
20
60
/7.0
5
40
40
30
30
20
20
10
0
0
0
0
P2
[kW]
10
NPSH
100
200
300
400
500
600
700
800
900
1000
1100
P2
[hp]
/12.0
70
/9.5
0
80
50
/12.0
40
40
/10.8
30
30
/9.5
20
/8.3
10
10
/7.0
0
0
0
0
32
2
60
/7.0
20
0
4
/8.3
50
10
6
70
/10.8
60
20
8
Eff
[%]
40
30
10
Q [US GPM]
80
50
12
100
200
50
300
400
100
500
600
700
150
800
900
200
1000
1100
Q [US GPM]
250
Q [m³/h]
TM05 5018 3912
10
NPSH
[ft] [m]
50
TM05 5018 3212
15
7
PACO KP, KPV
H
[m]
90
H
[ft]
Curve charts and technical data
KP 4015-9/0 [4-pole]
KP 4015-9/0
300
60 Hz, n = 1780 rpm
/15.25
280
80
260
/14.0
240
70
220
60
200
/12.5
180
50
160
/11.0
140
40
120
30
/9.5
100
NPSH
[ft] [m]
80
20
60
60
40
40
20
20
15
10
10
NPSH
0
0
0
100
400
600
800
1000
1200
1400
P2
[hp]
Eff
[%]
160
80
140
/9.5
/11.0
/12.5
/14.0
120
/15.25
70
60
/15.25
80
100
60
40
50
/14.0
80
60
0
40
30
/12.5
40
20
0
Q [US GPM]
20
/11.0
/9.5
20
10
0
0
0
0
200
400
100
600
800
1000
200
1200
1400
300
Q [US GPM]
Q [m³/h]
TM05 5019 3912
P2
[kW]
200
TM05 5019 3212
0
5
33
7
PACO KP, KPV
Curve charts and technical data
KP 5012-7/8 [4-pole]
H
[m]
H
[ft]
KP 5012-7/8
60 Hz, n = 1780 rpm
180
50
/12.0
160
140
/10.75
40
120
30
/9.5
100
NPSH
[ft] [m]
80
40
/8.25
12
20
60
30
/7.0
8
40
20
20
10
10
4
NPSH
0
0
0
200
400
600
800
1000
1200
1400
1600
1800
P2
[kW]
Q [US GPM]
90
80
80
/9.5
/12.0
/10.75
/9.5
60
70
60
/7.0
50
/12.0
40
50
40
/10.75
30
30
/9.5
20
/9.5
10
10
/7.0
0
0
0
0
200
400
100
600
800
1000
200
1200
1400
300
1600
1800
400
Q [US GPM]
Q [m³/h]
TM05 5020 3912
20
34
Eff
[%]
90
70
0
TM05 5020 3212
0
7
PACO KP, KPV
H
[m]
H
[ft]
KP 5015-9/0
280
80
Curve charts and technical data
KP 5015-9/0 [4-pole]
60 Hz, n = 1780 rpm
/15.0
260
240
70
220
/13.5
60
200
180
50
/12.0
160
140
40
/10.5
120
30
100
/9.0
NPSH
[ft] [m]
80
20
60
60
40
40
15
10
10
20
0
0
0
0
P2
[kW]
20
NPSH
200
400
600
800
1000
1200
1400
1600
1800
2000
0
Q [US GPM]
P2
[hp]
Eff
[%]
320
200
5
80
/12.0
280
/13.5
/15.0
/10.5
/9.0
240
70
60
160
200
120
30
/13.5
80
40
20
/12.0
40
/9.0
0
40
10
/10.5
0
0
0
0
200
400
100
600
800
200
1000
1200
1400
300
1600
1800
400
2000
Q [US GPM]
500
Q [m³/h]
TM05 5021 3912
80
/15.0
160
TM05 5021 3212
120
50
35
7
PACO KP, KPV
Curve charts and technical data
KP 6012-3/4 [4-pole]
H
[m]
H
[ft]
KP 6012-3/4
170
50
45
/12.0
60 Hz, n = 1780 rpm
160
150
140
40
/10.75
130
120
35
110
30
/9.5
100
90
25
/8.25
80
70
20
60
10
5
NPSH
[ft] [m]
50
40
40
30
30
20
20
10
0
NPSH
0
0
0
P2
[kW]
200
10
400
800
1200
1600
2000
2400
2800
Eff
[%]
280
90
240
160
/8.25
120
/9.5
2
0
60
50
/7.0
/12.0
40
/10.75
/9.5
40
30
/8.25
0
20
0
0
36
4
70
/10.75
/7.0
0
6
80
80
40
8
/12.0
200
80
10
Q [US GPM]
P2
[hp]
160
120
12
400
800
200
1200
1600
2000
400
2400
2800
600
Q [US GPM]
Q [m³/h]
TM05 5023 3212
15
/7.0
7
PACO KP, KPV
H
[m]
H
[ft]
80
260
Curve charts and technical data
KP 6015-3/4 [4-pole]
KP 6015-3/4
60 Hz, n = 1780 rpm
/15.0
240
70
220
/13.5
60
200
180
50
/12.0
160
140
40
/10.5
120
30
100
/9.0
80
20
NPSH
[ft] [m]
60
60
40
40
15
10
10
20
0
0
0
P2
[kW]
200
400
800
1200
1600
2000
2400
2800
3200
3600
Eff
[%]
320
90
280
80
/12.0
240
/13.5
/15.0
/10.5
/9.0
/15.0
200
80
160
0
70
60
50
/13.5
120
40
/12.0
80
40
0
Q [US GPM]
P2
[hp]
160
120
5
30
/10.5
40
20
/9.0
0
10
0
0
400
800
200
1200
1600
400
2000
2400
2800
600
3200
3600
800
Q [US GPM]
Q [m³/h]
TM05 5024 3912
0
20
NPSH
37
7
PACO KP, KPV
Curve charts and technical data
KP 6019-7/8 [4-pole]
H
[m]
H
[ft]
KP 6019-7/8
140
440
60 Hz, n = 1780 rpm
/19.0
120
400
/18.0
360
/17.0
100
320
/16.0
280
80
/15.0
240
60
200
NPSH
[ft] [m]
160
80
120
60
40
20
15
80
40
20
10
40
20
5
NPSH
0
0
0
0
400
800
1200
1600
2000
2400
2800
Q [US GPM]
P2
P2
[kW] [hp]
Eff
[%]
400
250
80
350
/15.0 /16.0 /17.0 /18.0
300
250
100
0
200
50
40
/17.0
/16.0
150
30
/15.0
20
50
10
0
0
0
0
38
60
/18.0
100
50
70
/19.0
200
150
/19.0
400
800
200
1200
1600
2000
400
2400
2800
600
Q [US GPM]
Q [m³/h]
0
7
PACO KP, KPV
H
[m]
H
[ft]
KP 6020-3/4
/20.0
480
Curve charts and technical data
KP 6020-3/4 [4-pole]
60 Hz, n = 1780 rpm
140
440
/18.5
120
400
360
100
/17.0
320
/15.5
280
80
240
60
/14.0
200
160
40
NPSH
[ft] [m]
120
60
80
40
15
20
10
NPSH
40
0
0
0
500
800
1200
1600
2000
2400
2800
3200
3600
P2
[hp]
Eff
[%]
800
80
700
600
/14.0
400
/15.5
/17.0
/18.5
200
300
0
70
60
/18.5
400
50
40
30
/17.0
/15.5
200
100
/20.0
/20.0
500
300
0
Q [US GPM]
20
/14.0
100
10
0
0
0
0
400
800
200
1200
1600
400
2000
2400
2800
600
3200
3600
800
Q [US GPM]
Q [m³/h]
TM05 5026 3912
P2
[kW]
400
5
TM05 5026 3212
0
20
39
7
PACO KP, KPV
Curve charts and technical data
KP 8012-5/6 [4-pole]
H
[m]
H
[ft]
KP 8012-5/6
170
50
45
/12.0
60 Hz, n = 1780 rpm
160
150
140
40
/10.8
130
120
35
110
/9.5
30
100
90
25
/8.25
80
70
20
60
15
10
5
/7.0
NPSH
[ft] [m]
50
40
40
30
30
20
20
NPSH
10
0
10
0
0
0
P2
[kW]
P2
[hp]
120
160
500
1000
1500
2000
2500
3000
3500
4000
Q [US GPM]
12
10
8
6
4
2
0
Eff
[%]
90
80
/12.0
/10.8
140
/8.25
120
60
40
0
50
/10.8
80
40
60
30
/9.5
20
/8.25
/7.0
20
10
0
0
0
0
40
60
100
40
20
/12.0
/7.0
500
1000
200
1500
2000
400
2500
600
3000
3500
800
4000
Q [US GPM]
1000 Q
[m³/h]
TM05 5027 3912
80
70
/9.5
TM05 5027 3212
100
7
PACO KP, KPV
H
[m]
H
[ft]
80
260
Curve charts and technical data
KP 8015-3/4 [4-pole]
KP 8015-3/4
/15.0
60 Hz, n = 1780 rpm
240
70
220
/13.5
60
200
180
50
/12.0
160
140
40
/10.5
120
30
100
/9.0
80
20
NPSH
[ft] [m]
60
60
40
40
15
10
10
20
0
0
0
1000
1500
2000
2500
3000
3500
4000
4500
5000
Q [US GPM]
P2
[hp]
450
300
250
150
100
400
80
350
/13.5
/12.0
/10.5
0
/15.0
/15.0
/9.0
250
200
150
60
40
30
/12.0
20
/10.5
/9.0
50
70
50
/13.5
100
50
Eff
[%]
90
300
200
0
10
0
0
0
0
500
1000
200
1500
2000
400
2500
600
3000
3500
800
4000
4500
1000
5000
1200
Q [US GPM]
Q [m³/h]
TM05 5028 3912
P2
[kW]
500
5
TM05 5028 3212
0
20
NPSH
41
7
PACO KP, KPV
Curve charts and technical data
KP 8020-5/6 [4-pole]
H
[m]
H
[ft]
440
130
120
60 Hz, n = 1780 rpm
400
380
110
KP 8020-5/6
/19.25
420
/17.94
360
340
100
90
320
/16.62
300
280
80
70
60
/15.31
260
240
/14.0
220
200
180
50
40
160
140
120
30
20
10
NPSH
[ft] [m]
100
80
80
60
60
40
40
NPSH
20
0
0
0
P2
[kW]
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000
Q [US GPM]
P2
[hp]
1800
1200
1000
600
15
10
20
5
0
0
Eff
[%]
90
1600
1400
/14.0
1200
800
20
/16.62
/15.31
/17.94
/19.25
80
70
60
1000
50
800
40
/19.25
600
0
/14.0
200
20
10
0
0
0
0
42
/16.62
/15.31
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000
200
400
600
800
1000
1200
1400
1600
Q [US GPM]
Q [m³/h]
TM05 5029 3912
400
200
30
/17.94
TM05 5029 3212
400
7
PACO KP, KPV
H
[m]
H
[ft]
KP 1012-1/2
170
50
60 Hz, n = 1780 rpm
/12.0
160
45
Curve charts and technical data
KP 1012-1/2 [4-pole]
150
140
/11.07
40
130
120
35
/10.15
110
30
100
/9.23
90
25
80
/8.3
70
20
60
15
50
NPSH
[ft] [m]
40
10
30
60
20
40
15
5
10
NPSH
10
0
0
0
P2
[kW]
500
1000 1500
2000 2500
3000
3500 4000
4500 5000
5500
6000
20
5
0
0
Q [US GPM]
P2
[hp]
Eff
[%]
360
90
240
320
80
200
280
/10.15
/9.23
240
/12.0
/11.07
70
60
160
200
120
50
/8.3
/12.0
160
40
/11.07
120
30
/10.15
80
40
0
20
/9.23
/8.3
40
10
0
0
0
0
500
1000 1500
200
2000 2500
400
600
3000
3500 4000
800
4500 5000
1000
5500
1200
6000
1400
Q [US GPM]
Q [m³/h]
TM05 5030 3912
80
43
7
PACO KP, KPV
Curve charts and technical data
KP 1015-3/4 [4-pole]
H
[m]
H
[ft]
KP 1015-3/4
280
80
60 Hz, n = 1780 rpm
/15.37
260
240
70
/14.18
220
60
200
/13.0
180
50
160
/12.0
140
/11.0
40
120
30
100
NPSH
[ft] [m]
80
20
60
60
40
40
15
10
10
20
0
0
0
P2
[hp]
Q [US GPM]
900
600
500
300
200
800
80
/14.18
700
/12.0
0
70
60
/11.0
500
50
/15.37
400
/14.18
300
/13.0
/11.0
100
40
30
20
/12.0
10
0
0
0
0
44
/15.37
/13.0
200
100
Eff
[%]
90
600
400
0
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000
200
400
600
800
1000
1200
1400
1600
Q [US GPM]
Q [m³/h]
TM05 5031 3912
P2
[kW]
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000
5
TM05 5031 3212
0
20
NPSH
7
PACO KP, KPV
H
[m]
H
[ft]
Curve charts and technical data
KP 1020-3/4 [4-pole]
KP 1020-3/4
480
60 Hz, n = 1780 rpm
140
/19.6
440
120
400
/18.25
360
100
/16.75
320
280
NPSH
[ft] [m]
/15.4
80
240
120
/14.0
60
40
35
200
100
30
160
80
25
120
60
80
40
20
15
20
10
NPSH
40
0
0
0
2000
3000
4000
5000
6000
7000
8000
9000
10000
P2
[hp]
Eff
[%]
1600
1000
90
1400
/15.4
1200
/16.75
/18.25
/19.6
800
600
0
60
50
/18.25
40
/16.75
/15.4
400
200
80
70
1000
400
/19.6
/14.0
800
600
0
Q [US GPM]
30
/14.0
200
20
0
10
0
0
1000
2000
500
3000
4000
5000
1000
6000
7000
1500
8000
9000
2000
10000
Q [US GPM]
2500
Q [m³/h]
TM05 5032 3912
P2
[kW]
1000
5
TM05 5032 3212
0
20
45
7
PACO KP, KPV
Curve charts and technical data
KP 1024-3/4 [4-pole]
H
[m]
H
[ft]
KP 1024-3/4
/24.8
750
60 Hz, n = 1780 rpm
220
700
200
180
650
/23.0
600
550
/21.0
160
500
140
450
/19.0
120
400
350
/17.0
100
300
200
80
150
60
100
40
40
20
0
15
10
NPSH
50
20
0
0
0
P2
[kW]
1000
2000
3000
4000
5000
6000
7000
8000
P2
[hp]
Q [US GPM]
90
3200
80
2000
2800
/17.0
1200
800
0
/23.0
/21.0
/24.8
/24.8
1600
50
30
/21.0
20
/19.0
/17.0
400
70
40
/23.0
1200
10
0
0
0
0
1000
2000
500
3000
4000
5000
1000
6000
7000
1500
8000
0
60
2000
800
400
/19.0
5
Eff
[%]
3600
2400
46
9000 10000 11000
2400
1600
20
9000 10000 11000
2000
2500
Q [US GPM]
Q [m³/h]
TM05 5033 3912
60
NPSH
[ft] [m]
250
TM05 5033 3212
80
7
PACO KP, KPV
H
[m]
H
[ft]
KP 1415-1/2
280
60 Hz, n = 1780 rpm
/15.6
80
Curve charts and technical data
KP 1415-1/2 [4-pole]
260
/14.75
240
70
220
/13.75
60
200
/13.0
180
50
/12.0
160
140
40
120
30
20
NPSH
[ft] [m]
100
80
80
60
60
40
40
20
15
NPSH
10
10
20
0
0
0
2000 3000
4000 5000
6000
7000 8000
9000 10000 11000 12000
P2
[hp]
Q [US GPM]
Eff
[%]
900
90
600
800
80
500
700
/12.0
600
400
300
200
0
70
/14.75 /15.6
/13.0 /13.75
60
500
50
400
/15.6
/14.75
/13.75
300
200
100
0
/12.0
40
30
/13.0
20
100
10
0
0
0
0
1000
2000 3000
500
4000 5000
1000
6000
7000 8000
1500
9000 10000 11000 12000
2000
2500
Q [US GPM]
3000 Q
[m³/h]
TM05 5034 3912
P2
[kW]
1000
5
TM05 5034 3212
0
20
47
7
PACO KP, KPV
Curve charts and technical data
KP 6019-7/8 [6-pole]
H
[m]
H
[ft]
190
55
45
60 Hz, n = 1180 rpm
180
170
50
KP 6019-7/8
/19.0
/18.0
160
150
/17.0
140
40
/16.0
130
120
35
/15.0
110
30
100
90
25
20
80
70
60
15
10
5
NPSH
[ft] [m]
50
40
40
30
30
20
20
10
0
0
0
0
P2
[kW]
100
10
NPSH
200
400
600
800
1000
1200
1400
1600
1800
10
8
6
4
2
0
Q [US GPM]
P2
[hp]
Eff
[%]
160
80
140
12
/18.0
/15.0 /16.0 /17.0
/19.0
70
120
60
100
50
80
/18.0
60
0
20
/15.0
20
10
0
0
0
0
48
30
/17.0
/16.0
40
20
40
200
400
100
600
800
1000
200
1200
1400
300
1600
1800
400
Q [US GPM]
Q [m³/h]
TM05 5035 3912
40
/19.0
80
TM05 5035 3212
60
7
PACO KP, KPV
H
m]
H
[ft]
KP 6020-3/4
70
220
60 Hz, n = 1180 rpm
/20.0
60
200
/18.5
180
50
Curve charts and technical data
KP 6020-3/4 [6-pole]
160
/17.0
140
40
/15.5
120
30
/14.0
100
80
NPSH
[ft] [m]
20
60
30
8
40
20
10
NPSH
6
4
20
10
2
0
0
0
P2
kW]
00
200
400
600
800
1000
1200
1400 1600
1800 2000
2200
2400
P2
[hp]
Eff
[%]
320
80
280
240
/14.0
60
/15.5
/17.0
/18.5
/20.0
80
50
160
/20.0
120
/17.0
0
20
/15.5
/14.0
40
40
30
/18.5
80
40
70
60
200
20
0
Q [US GPM]
10
0
0
0
0
200
400
100
600
800
1000
200
1200
1400 1600
300
1800 2000
400
2200
500
2400
Q [US GPM]
600
Q [m³/h]
TM05 5036 3212
TM05 5036 3912
0
49
7
PACO KP, KPV
Curve charts and technical data
KP 8015-3/4 [6-pole]
H
[m]
H
[ft]
KP 8015-3/4
120
60 Hz, n = 1180 rpm
35
/15.0
110
30
100
/13.5
90
25
80
/12.0
70
20
60
15
/10.5
50
/9.0
40
10
NPSH
[ft] [m]
20
30
6
15
4
20
10
5
0
0
0
400
800
1200
1600
2000
2400
2800
3200
3600
P2
[hp]
Q [US GPM]
180
120
100
60
40
160
80
140
/10.5
/12.0
/15.0
/13.5
0
100
50
/15.0
80
/13.5
60
/12.0
20
40
30
20
/10.5
10
/9.0
0
0
0
0
50
70
60
/9.0
40
20
Eff
[%]
90
120
80
0
400
800
200
1200
1600
400
2000
2400
2800
600
3200
3600
800
Q [US GPM]
Q [m³/h]
TM05 5037 3912
P2
[kW]
5
TM05 5037 3212
0
2
NPSH
10
7
PACO KP, KPV
H
[m]
60
H
[ft]
Curve charts and technical data
KP 8020-5/6 [6-pole]
KP 8020-5/6
60 Hz, n = 1180 rpm
200
/19.25
180
50
/17.94
160
140
/16.62
120
/15.31
100
/14.0
40
30
80
NPSH
[ft] [m]
20
60
30
8
40
20
20
10
6
10
4
NPSH
0
0
0
250
800
1200
1600
2000
2400
2800
3200
3600
400
90
350
/16.62
/15.31
0
/19.25
80
70
60
/19.25
200
/17.94
150
/16.62
/15.31
100
50
/17.94
/14.0
250
0
Q [US GPM]
Eff
[%]
300
100
4400
P2
[hp]
200
150
4000
50
40
30
/14.0
50
20
0
10
0
0
400
800
200
1200
1600
400
2000
2400
2800
600
3200
3600
800
4000
4400
Q [US GPM]
1000
Q [m³/h]
TM05 5038 3912
P2
[kW]
400
TM05 5038 3212
0
2
51
7
PACO KP, KPV
Curve charts and technical data
KP 1012-1/2 [6-pole]
H
[m]
H
[ft]
KP 1012-1/2
75
22
20
18
60 Hz, n = 1180 rpm
/12.0
70
65
/11.07
60
55
16
50
14
12
/10.15
45
/9.23
40
35
/8.3
10
NPSH
[ft] [m]
30
8
25
25
20
20
15
15
7
6
4
6
5
4
10
10
NPSH
2
3
2
5
5
0
0
1
0
P2
[kW]
400
800
1200
1600
2000
2400
2800
3200
3600
Eff
[%]
90
90
60
80
80
50
70
/10.15
20
0
/12.0
40
30
50
40
30
/10.15
20
/9.23
/8.3
10
70
60
/11.07
20
10
/12.0
/8.3
50
30
/11.07
/9.23
60
0
Q [US GPM]
P2
[hp]
40
10
0
0
0
0
52
4000
400
800
200
1200
1600
400
2000
2400
2800
600
3200
3600
800
4000
Q [US GPM]
1000
Q [m³/h]
TM05 5039 3912
0
7
PACO KP, KPV
H
[m]
H
[ft]
Curve charts and technical data
KP 1015-3/4 [6-pole]
KP 1015-3/4
120
60 Hz, n = 1180 rpm
/15.37
35
110
30
100
/14.0
90
25
80
/13.0
70
/12.0
60
/11.0
20
15
50
40
10
NPSH
[ft] [m]
30
30
8
20
20
10
10
6
5
4
0
0
0
400
800
1200
1600
2000
2400
2800
3200
3600
4000
4400
Q [US GPM]
P2
[hp]
360
240
200
120
80
320
80
/14.0
280
/12.0
0
/15.37
/13.0
70
60
/11.0
200
50
160
40
/15.37
120
/14.0
80
40
Eff
[%]
90
240
160
0
40
/11.0
/12.0
/13.0
30
20
10
0
0
0
0
400
800
200
1200
1600
400
2000
2400
2800
600
3200
3600
800
4000
4400
Q [US GPM]
1000
Q [m³/h]
TM05 5040 3912
P2
[kW]
2
TM05 5040 3212
0
NPSH
53
7
PACO KP, KPV
Curve charts and technical data
KP 1020-3/4 [6-pole]
H
[m]
60
H
[ft]
KP 1020-3/4
60 Hz, n = 1180 rpm
200
/19.6
180
50
/18.25
160
140
/16.75
120
/15.4
100
/14.0
40
30
80
NPSH
[ft] [m]
20
60
60
15
40
40
10
10
20
20
NPSH
0
0
0
0
P2
[kW]
250
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000
Eff
[%]
400
90
/15.4
300
/18.25
/16.75
/19.6
/19.6
/14.0
200
0
Q [US GPM]
P2
[hp]
350
5
250
80
70
60
/18.25
150
200
50
/16.75
150
/14.0
100
0
50
20
0
10
0
0
54
30
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000
200
400
600
800
1000
1200
1400
1600
Q [US GPM]
Q [m³/h]
TM05 5041 3912
50
40
/15.4
TM05 5041 3212
100
7
PACO KP, KPV
H
[m]
H
[ft]
KP 1024-3/4
/24.8
340
60 Hz, n = 1180 rpm
100
320
90
300
/23.0
280
80
Curve charts and technical data
KP 1024-3/4 [6-pole]
260
240
/21.0
70
220
60
200
/19.0
180
50
160
/17.0
140
40
120
30
100
NPSH
[ft] [m]
80
20
60
30
40
20
8
10
20
0
0
0
0
P2
[kW]
10
NPSH
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500
Eff
[%]
900
90
600
800
80
500
700
/17.0
600
/21.0
4
2
0
Q [US GPM]
P2
[hp]
/19.0
6
/24.8
/23.0
/24.8
70
60
400
500
200
400
300
0
30
/19.0
200
100
40
/21.0
20
/17.0
100
10
0
0
0
0
500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500
200
400
600
800
1000
1200
1400
1600
Q [US GPM]
1800
Q [m³/h]
TM05 5042 3912
300
50
/23.0
55
7
PACO KP, KPV
Curve charts and technical data
KP 1220-5/6 [6-pole]
H
[m]
H
[ft]
KP 1220-5/6
70
220
60 Hz, n = 1180 rpm
/20.0
60
200
180
/18.25
50
160
/16.5
140
40
120
/14.75
30
100
/13.0
80
NPSH
[ft] [m]
20
60
60
40
40
15
10
10
NPSH
20
0
0
0
P2
[kW]
1000
2000
3000
4000
5000
6000
7000
8000
9000 10000 11000
P2
[hp]
Eff
[%]
900
90
800
80
500
700
70
600
/13.0
400
/16.5
/14.75
/20.0
/18.25
60
500
200
50
/20.0
400
/18.25
300
0
20
/14.75
100
10
/13.0
0
0
0
0
56
40
30
/16.5
200
100
0
Q [US GPM]
600
300
5
1000
2000
500
3000
4000
5000
1000
6000
7000
1500
8000
9000 10000 11000
2000
2500
Q [US GPM]
Q [m³/h]
TM05 5043 3912
0
20
7
PACO KP, KPV
H
[m]
H
[ft]
KP 1415-1/2
/15.6
120
Curve charts and technical data
KP 1415-1/2 [6-pole]
60 Hz, n = 1180 rpm
35
110
30
/14.75
100
/13.75
90
25
/13.0
80
/12.0
70
20
60
15
50
40
10
NPSH
[ft] [m]
30
60
20
40
15
5
10
10
0
0
0
0
P2
[kW]
20
NPSH
1000
2000
3000
4000
5000
6000
7000
8000
Q [US GPM]
P2
[hp]
5
0
Eff
[%]
200
90
180
80
140
/12.0
140
/13.0
70
/14.75 /15.6
/13.75
60
120
80
60
40
50
/15.6
100
40
/14.75
80
30
/13.75
/13.0
60
20
/12.0
40
20
10
20
0
0
0
1000
2000
500
3000
4000
1000
5000
6000
7000
1500
8000
Q [US GPM]
2000 Q
[m³/h]
TM05 5044 3912
100
160
TM05 5044 3212
120
57
8
PACO KP, KPV
Bare shaft pump
8. Bare shaft pump
Dimensional sketch
TM04 1827 1108
DNs: Suction flange
DNd: Discharge flange
Dimensions
All dimensions are in inches.
Pump size
2095-1/2
2013-5/6
3095-7/8
3014-7/8
4012-1/2
4012-7/8
4015-9/0
5012-7/8
5015-9/0
6012-3/4
6015-3/4
6019-7/8
6020-3/4
8012-5/6
8015-3/4
8020-5/6
1012-1/2
1015-3/4
1020-3/4
1024-3/4
1220-5/6
1415-1/2
58
DNd
2
2
3
3
4
4
4
5
5
6
6
6
6
8
8
8
10
10
10
10
12
14
DNs
2-1/2
2-1/2
4
4
5
5
5
6
6
8
8
8
8
10
10
12
12
12
14
14
14
16
HZ
12-1/4
15-5/8
13
16-5/8
16-1/8
16-1/8
20
17-5/8
20-3/4
19-3/4
22-3/4
23-3/4
25-5/8
21-5/8
24-3/4
28-13/16
24-3/8
24-3/4
30-3/8
31-3/4
30-13/16
30-1/2
A
12
12
12
12
12
12
12
12
12
12
12-1/4
12
12-1/2
12
12-3/4
25-1/2
12-3/4
18
25-1/2
25-1/2
25-1/2
-
AE
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
10-1/4
19-3/4
10-1/4
15
19-3/4
19-3/4
19-3/4
-
D
7
8-1/2
8
10
10-1/8
10-1/8
13
14-1/2
16-1/8
16
18-1/4
17
17-3/4
17-1/4
19
20-13/16
19-13/16
20
23-1/16
25
25
-
BP
7
7
7
9-1/4
9-1/4
9-1/4
12
10-1/4
10-1/4
10-1/4
16-1/2
12
12
14
17-1/2
16
17-1/2
12
16
16
16
-
B
8-3/4
8-3/4
8-3/4
11
11-1/8
11-1/8
13-3/4
12
12
12
18
14
14
15-1/2
19-1/2
19-1/4
19-1/2
14
19-1/4
19-1/4
19-1/4
-
DH/SH
3-1/2
3-1/2
4
5
4-7/8
4-7/8
6-1/4
6-1/2
6-1/2
6-1/2
7-1/4
6-3/4
6-3/4
6-3/4
7
7-13/16
8
10
9-11/16
12
12
-
W
12
12
12
14-1/2
14-1/2
14-1/2
14-1/2
16-1/2
17
17
20
19-1/4
21-1/2
20
20-3/8
29-1/2
20-7/8
23-5/8
31-7/16
31-7/16
31-7/16
28-1/2
H
11-16
11/16
11/16
11/16
11/16
11/16
11/16
11/16
11/16
11/16
11/16
3/4
3/4
11/16
11/16
1-1/8
11/16
7/8
1-1/8
1-1/8
1-1/8
-
8
PACO KP, KPV
Bare shaft pump
Dimensional sketch
TM04 1827 1108
DNs: Suction flange
DNd: Discharge flange
Dimensions
All dimensions are in inches.
Pump size
2095-1/2
2013-5/6
3095-7/8
3014-7/8
4012-1/2
4012-7/8
4015-9/0
5012-7/8
5015-9/0
6012-3/4
6015-3/4
6019-7/8
6020-3/4
8012-5/6
8015-3/4
8020-5/6
1012-1/2
1015-3/4
1020-3/4
1024-3/4
1220-5/6
1415-1/2
K(WxL)
YY
X
1/4x1/8
8-1/2
8-1/2
1/4x1/8
10
10
1/4x1/8
11
11
3/8x3/16
12
12
3/8x3/16
12
12
3/8x3/16
12
12
3/8x3/16
14-1/16 14-1/16
3/8x3/16
13
13
3/8x3/16
15
14
3/8x3/16
16
14
3/8x3/16
16
15
(X5)3/8x3/16
17
17
(X6)1/2x1/4
1/2x1/4
19
17
3/8x3/16
17
15
3/8x3/16
19
19
5/8x5/16
22
16-5/16
3/8x3/16
19-1/2
19-1/2
1/2x1/4
23
17
3/4x3/8
26
20
3/4x3/8
28
24
5/8x5/16
28
23
25-3/5 21-13/20
G
5/8
5/8
3/4
7/8
7/8
7/8
1
1
1
1
1-1/8
1
1
1-1/8
1-1/8
1-3/8
1-1/8
1-1/8
1-3/8
1-3/8
1-3/8
-
U
N
1
2-7/8
1
2-7/8
1 XE 1-3/16
2-7/8
1-1/2
2-3/4
1-1/2
2-3/4
1-1/2
2-3/4
1-1/2
2-3/4
1-1/2
2-3/8
1-1/2
2-3/8
1-1/2
2-3/8
1-3/4
3-11/16
(X5)1-3/4 (X5)3-11/16
(X6)2
(X6)3
2-1/8
3-16/16
1-3/4
3-11/16
1-3/4
3-11/16
2-1/2
4-1/4
1-3/4
3-11/16
2-1/4
6-1/8
3-1/8
6-7/8
3-1/8
9-5/16
2-1/2
4-1/4
2-1/2
-
WS
8-1/2
8-1/2
8-1/2
9-7/8
9-7/8
9-7/8
8-1/2
11-3/8
11-7/8
11-7/8
11-3/4
13-1/4
15-1/2
13
11-5/8
21-1/2
12-1/8
17-5/8
23-3/8
23-3/8
21-1/2
-
CP
PACK
SEAL
21-1/8
19-3/4
21-1/8
19-3/4
21-1/8
19-3/4
26-1/4
24-1/2
26-1/4
24-1/2
26-1/4
24-1/2
26-1/4
24-1/2
30-1/4
30-1/4
31-1/4
31-1/4
31-1/4
31-1/4
36-5/16
36-5/16
(X5)34-11/16 (X5)34-3/16
(X6)35-1/2
(X6)35-1/2
39-1/8
39-1/8
36-5/16
36-5/16
37-1/16
37-1/16
53-11/16
53-11/16
38-1/16
38-1/16
41-1/8
41-1/8
54-11/16
54-11/16
53-1/2
53-1/2
54-3/4
54-3/4
51-7/10
51-7/10
WB
16-3/8
16-3/8
16-3/8
20
20
20
21-3/8
22-1/2
23
23
29
26-1/4
28-1/2
27-3/4
30-1/8
39-1/8
30-5/8
30-5/8
41-5/16
41-5/16
39-1/8
-
59
© Copyright Grundfos Holding A/S
ECM: 1109068
GRUNDFOS Pumps Corporation
17100 West 118th Terrace
Olathe, Kansas 66061
Phone: +1-913-227-3400
Telefax: +1-913-227-3500
GRUNDFOS Canada Inc.
2941 Brighton Road
Oakville, Ontario L6H 6C9
Canada
Phone: +1-905 829 9533
Telefax: +1-905 829 9512
Bombas GRUNDFOS de Mexico S.A. de C.V.
Boulevard TLC No. 15
Parque Industrial Stiva Aeropuerto
Apodaca, N.L. Mexico 66600
Phone: +52-81-8144 4000
Telefax: +52-81-8144 4010
The name Grundfos, the Grundfos logo, and be think innovate are registered trademarks owned by Grundfos Holding A/S or Grundfos A/S, Denmark. All rights reserved worldwide.
98432075 0413