KSB S 100D, UPA 100C, UPA 250C, UPA 300, UPA 350 Booklet

Type series booklet

3400.51/2--10

Submersible Borehole Pumps60 Hz

Applications

-- Drinking and service water supply

-- Irrigation and spray irrigation

-- Lowering and maintaining ground water levels

-- Pressure boosting

-- Fountains

-- Mining, offshore, tank farms

-- Building services systems

-- VDS sprinkler systems

Operating Data

Capacity Q up to 1080 m3/h (300 l/s..................

Head H up to 460 m.....................

Temperat ur e of fluid handled t up to +50

Speed n ≈ 3500 rpm....................

Supply voltage U up to 10,000 V.............

or up to 5000 US GPM)

o

C..

Design

Single-- or multistage centrifugal pumps in pump shroud or in
ring--section design. Radial or mixed flow hydraulic systems;
reduced impeller diameters also available in some cases. The
stage casings of radial pumps are connected by metal straps,
those of mixed flow pumps by stud bolts. Suction casing fitted
between pump and motor. Suction casing equipped with
strainer to protect the pump from coarse particles in the fluid.
Pumps with check valve or connection branch on option.
Available with threaded or flanged end on option.
Particularlysuitable forvertical installationin narrowdeep wells.

Submersible Borehole Pumps

S 100D, UPA 100C, UPA 150C, UPA 200,

UPA 200B, UPA 250C, UPA 300,

UPA 350, BSX -- BSF, UPZ

Pump Designation (Example)

UPA

Type series
Minimum well diameter (mm)

(for ex.: 200 mm = 8 inches)

Design status
Capacity (Q

m3/h (4 up to 10 inches)
l/s (12 inches and above)

Number of stages
Reduced impeller diameters

1)

UPA 200 -11 + 14: Q in l/s.

at 50Hz)

opt

1)

Motor Designation (Example)

Type series
Well diameter (mm)

(for ex. 250 mm = 10 inches)

Design status
Rated power P
Number of poles
Winding insulation

for 50 Hz (kW)

N

200 B -- 8 0 /5 b

250 D 11 0 /21

UMA

Available automation products:

• Hyamaster
(UPA 200 and UPA 300)

Complete Range

The complete submersible borehole pump range comprises
pump models for capacity up to Q = 2500 m
heads up to H = 1500 m.
The submersible motorrange covers sizes for powerratings up
to P = 3500 kW (4700 hp) and voltages up to U = 10,000 V for
50 and 60 Hz.
In addition, a special range is available which features
submersible motors with a higher number of poles.

3

/h (695 l/s) and

Certification

Quality management certified to ISO 9001

60 Hz Submersible Borehole Pumps

Contents Page

The 60 Hz Submersible Borehole Pump Range 4..............................................................

Operation with Soft Starters 5...............................................................................

Operation with Frequency Inverter 6..........................................................................

Typical Installation Positions 7...............................................................................

Submersible Borehole Pump Selection for Deep Wells 8...........................................................

Request for Quotation (Form) 9..............................................................................

Head Losses in the Piping 10................................................................................

Pump Sets 4 Inches 11.....................................................................................

Pump Sets 6 Inches 31.....................................................................................

Pump Sets 8 Inches / 10 Inches 51...........................................................................

Pump Sets 12 Inches / 14 Inches 73..........................................................................

Pump Sets 16 Inches and Above 87..........................................................................

Typical Tenders: 4 to 14 Inches 95...........................................................................

Submersible Motors 100....................................................................................

Accessories 102...........................................................................................

Flow Velocity ”v” Past the Motor 112..........................................................................

2

Submersible Borehole Pumps60 Hz

What can you expect from the Booklet
“Submersible Borehole Pumps”?

The information provided can help you make a

-- quick

-- first rough selection

-- on your own
to find a suitable KSB submersible borehole pump for your

application. We have kept the volume of the catalogue down to
what we think is the absolute minimum. For the 4 to 14 inch
range, you will find the following information on the pump
selected:

-- pump series, size and number of stages,

-- motor series, size, power, amperage and allowable
temperature,

-- starting method, supply voltage and type of installation,

-- material variants and

-- major dimensions and weights.

You may also complete, to the extent possible, the request for
quotation on page 9.

You will then receive as soon as possible a detailed quotation
and, if required, additional literature on KSB submersible
borehole pumps from the nearest KSB sales branch.

Benefits at a Glance

+ Full range of products
+ High-tech equipment
+ Optimum material selection
+ Maximum efficiency
+ Functional r eliability
+ Long service life
+ No maintenance
+ ”Clean” technology
+ Customer focus

General

Information on fields of application, available models, type of
installation, direction of rotation, coating, connection to power
supply and speed control is provided inthe detailed sections for
the relevant type series.

Pump Efficiency

The characteristic curves for UPA 200/200B and larger pumps
show pump efficiencyfor the maximum and optimum (reduced)
impeller diameter (for ex. ”c”). The efficiency of pumps with a
low number of stages or considerably reduced impeller
diameter (for ex. ”d”, “e”) is lower than the value shown; it is
given in the individual characteristic curves specifically
prepared for the quotation.

Dry Running Protection

For use in wells with marked water level fluctuations or
temporary low yield we strongly recommend installing dry
running protection equipment (”Accessories”).

Application Temperatures

The submersible borehole pumpsare, as a standard, suitable for
use in water with temperatures of up to t = +30
indispensable requirement for this is aflow velocity of v = 0.2 m/s
past the motor. This requirement is met, for example, when the
pump is installed in a deep well above the well screen / filter, etc.
With certain restrictions, some motor sizes may also be used
in water with temperatures of up to t = +50

o

C and for operation
without an adequate cooling flow of water past the motor, i.e.
v = 0 m/s (for example, when the unit is installed in a deep well
below the screen / filter area or in a pump sump, etc.).

The details below provide data of adequate accuracy for the
allowable temperature as a function of the type of installation,
motor size and flow velocity v past the motor:

Vertical installation:

-- DN 100 / DN 150:

t

allow=tmax

-- UMA 150D/200D:

v= 0m/s t
v ≥ 0.2 m/s t
v ≥ 0.5 m/s t

1)

irrespective of flow past the motor.

allow
allow
allow

≈ t
=t
≈ t

max
max
max

1)

-- 5oC,......

1)

,....

1)

+5oC.....

-- UMA 250D:

v = 0 m/s Please consult manufacturer,......

v ≥ 0.2 m/s t
v ≥ 0.5 m/s t

1)

Values taken from tables on pages 15, 16 etc., 27, 28 etc..

allow
allow

=t
≈ t

max
max

1)

,....

1)

,+5oC.....

o

C. An

Horizontal installation:

The principle is the same as for vertical installation.
Exception: Pumps with UMA 250D motors.
These units must always be equipped with a flow inducer
sleeve. The flow inducer sleeve is not required, if the given
pump is equipped with a motor having a 10 % higher power
rating.

For all pump sets:
For a flow velocity of v ≥ 0.5 m/s and horizontal installation,
check back with the manufacturer.

3

60 Hz Submersible Borehole Pumps

The 60 Hz Submersible Borehole Pump Range

" UPA 100C

" S 100D

(4 inches)

(4 inches)

" UPV 200

(8 inches)

" UPA 150C

(6 inches)

" UPA 200

(8/10
inches)

" UPA 200B

(8/10 inches)

" UPZ

BSX, BSF

(≥16 inches)

1)

1)

" UPA 300, 350

(12/14 inches)

" UPA 250C

(8/10 inches)

4

Submersible Borehole Pumps60 Hz

Operation of KSB Submersible Borehole Pumps with Soft Starters

Soft starters electronically reduce the incoming line voltage
and, hence, the initial starting torque and starting current of
electric motors. During run--up they gently ramp up the applied
voltage to the motor.
In the case of submersible motors, the extremely slim design
and consequential small moments of inertia result in special
characteristics, which differ strongly from normal asynchro­nous motors.

Effects on submersible borehole pumps

-- Starting current ⇒ approx. 40% to 65% of IArequired for

d.o.l. starting.

-- Run-up time t

with approx. 0.2s to 0.5s for direct-starting.

-- Starting torque M

-- No current or torque peaks (I

switching arrangement.

-- Hydraulic pressure surges (waterhammer) upon starting

and stopping of the pump can be reduced, but not fully
eliminated. Therefore, soft starters are not suitable for
solving water hammer problems.

This would require the use of hydraulic control equipment
or a frequency inverter. To prevent effects due to power
failure, additional measures are required.

increased to approx. 1s to 3s compared

H

roughly1/4of the direct-starting torque.

A

), as in star-delta

A,MA

Note

Conspicuous noise or vibrations during run-up could well be an
indication of incorrect settings on the soft starter. This might be
due to exceeded ramp--up periods, incorrect operating mode
(setting), activated special functions, etc.

Soft starter settings

Parameter / Function Setting Comments

Minimum starting voltage 40% of the motor’s rated voltage
Ramp time / acceleration

(run-up) time
Current limitation IA/INpreset to approx. 3.5 Should only be altered with allowance for

Deceleration (run-down) time /
stop ramp

Special functions, e.g.:

-- special “pump function”

-- kick-start / boost function

-- speed adjustment

-- Current controller

-- cos ϕ / economy function

-- delayed starting

< 4s Ramp time is not identical with the motor’s

Deceleration time tA< 4s Better without a ramp.

OFF Do not use, as they tend to be troublesome,

actual running-up time

< 4s

t

H

particularly in submersible borehole applica­tions.

During operation the soft starter must be bridged (bypass). This helps to avoid losses at the machine and motor to secure proper
permanent operation.

120

Run-up

Operation

Run-down

100

80
60

40

Voltage [% ]

20

0

4s

Time [s]

4s

5

Pump Operation with Frequency Inverter

203

0

60 Hz Submersible Borehole Pumps

In principle, the motors of submersible borehole pumps can
also be run on a frequency inverter. As submersible motors
differ from conventional standardized motors in terms of
bearings, moment of inertia, insulation, temperature increase,
loss distribution and heat distribution, the following parameters
must be observed:

-- Maximum allowable acceleration time (start ramp)

-- Maximum allowable deceleration time (stop ramp)

-- Minimum frequency

-- Maximum operating frequency

-- Maximum permissible voltage increase velocity and peak
voltages

-- Control principle of frequency inverter

Maximum Allowable Acceleration Time (Start
Ramp) and Deceleration Time (Stop Ramp)

The plain bearings of the submersible motor operation below
the minimum frequency f
lubrication range).
For this reason, the acceleration period from standstill to
minimum frequency f
applies to the deceleration period.

do not tolerate (operation in mixed

min

should not exceed 2s. The same

min

Minimum Frequency

Minimum frequency f

Motor size

DN 100
DN 150
UMA 150D
UMA 200D
UMA 250D
UMA 300D /2
UMA 300D /4 30 35

Vertical

installation

30

(Hz)

min

Horizontal

installation

30

-- --

Maximum Operating Frequency

Frequency inverter operation above the nominal frequency
(50Hz / 60Hz) of the pump unit must be avoided so as, to
prevent motor overload.

Maximum Permissible Voltage Increase Velocity
and Peak Voltages

Excessive voltage increase velocities and excessive peak
voltages will reduce the service life of the winding insulation.
For this reason, the following limits must be adhered to:

-- Maximum voltage increase velocity:
du/dt ≤ 500 V/µs

-- Maximum peak voltages to earth:
Low-voltage motors ≤ 1 kV: J1 insulation ≤ 600 V

J2 insulation ≤ 800 V

Note: Compliance with these limits can usually be assured by
means of a sine filter ordu/dtfilter.

Control Principle of Frequency Inverter

The control principle of the frequency inverter must correspond
to linear U/f curve control. If other control principles are
employed, such as field-oriented inverters, inverters with DTC
or NOF, the manufacturerof the frequencyinverter must ensure
that thespecial requirements of submersible motors (very small
moment of inertia, electrical data) are taken into account.

6

Typical Installation Positions

a) Vertical Installation

(deep well, pump sump, etc.)

CAUTION:

The construction of the well head must meet the relevant
regulations of the competent authorities! The unit must never
be installed with its suction strainer exactly at the level of the
well screen / filter!

Before installingthe unit innarrow deep wells we recommendto
check narrow boreholes for dimensional accuracy over their
entire length, e.g. by inserting a pipe of the length and biggest
outside diameter of the pump unit. Sharp bends or bottlenecks
can make installation difficult or even impossible.
The unit is supported on the well head by supporting clamps
(low-weight unitsand low submergence)or a supportingflange.
The construction of the well head must meet the relevant
regulations of the competent authority.

5

8

Submersible Borehole Pumps60 Hz

Cooling / Suction shroud

Fig. 2 Installation in a pump sump

b) Horizontal Installation

(in reservoirs, mine shafts, etc.)

3400:50

4

6

H

h

H

t

3

B

B

H

X

2

1

1 Submersible borehole pump
2 Riser pipe
3 Cable tie

9

4 Supporting flange /Well head
5 Pressure gauge
6 Shut-off valve
7 Power supply cable
8 Control box
9 Well screen / filter

D

3410:70/4

D = Inside well diameter
T

= Well depth

B

TF= Well screen / filter depth
H

= Installation depth

e

H

= Static water level

h

Ht= Dynamic water level (Pumping water level)

7

CAUTION:

The instructions given in ”a) Vertical installation” shall also apply
by analogy to horizontal installation, when the pump unit is fitted
on mounts (pedestals / supporting frame) supplied by us. If the
pump and motor are supplied ready mounted on a supporting

e

frame, on-site alignment of pump and motor will not be
necessary. If this is not the case, the relevant installation /
assembly drawing must be ordered, giving the following details:

-- installation height (floor clearance),

-- spacing of supports,

-- submergence X

T

F

The ground / foundation must be level and of sufficient
load-bearing capacity to accept the weight of the unit with

T

B

supports.
Air intake from an inlet arranged above the water level is not

permitted.

X

3410:71/2

Fig. 1 Vertical installation (in deep well, pump sump, etc.)

The suspension arrangement of the pump unit must be
designed anddimensioned so that allstatic and dynamic forces
can be absorbedand that the riser pipecannot slip downwards.
The supporting clamps or flanges must be fastened at the well
head so that they cannot shift of lift off the well head.

The unit must never be installed with its suction strainer exactly
at the level of the well screen / filter! Excessive flow in the area
of the well screen / filter entails the risk of large amounts of
entrained sand clogging the well screen / filter and causing
excessive wear in the pump.

Pump units installed in a pump sump must generally be
equipped with a cooling or suction shroud (fig. 2).

Fig. 3 Horizontal installation (in tanks, mine shafts etc.)

1 Submersible borehole pump
2 Water storage tanks (UMA 300D and 14D motors only)
3 Pedestal
4 Expansion joint
5 Check valve

(only if pump unit does not have its own check valve)
6 Dismantling joint
7 Shut-off valve
8 Intake

7

60 Hz Submersible Borehole Pumps

Selection for Deep Wells

Pump Selection

The following data are required for a first rough selection of a
submersible borehole pump:

-- Capacity Q in m

-- Pressure at well head H

-- Well diameter D in inches or mm

-- Temperature of fluid handled t

-- Pump head HPin m
While Q, H

head H

A

to be developed by the pump needs to be calculated.

P

There are two typical applications to be considered (see the
drawing on the right):

1. Pumping into an open overhead tank

HP=HA+Ht+Hv+HS[m]

with ...
H

= Required pressure at well head

A

H

= Lowest water level (dynamic water level)

t

Hv= Head losses in the check valve (see characteristic

H

= Head losses in riser pipe up to well head

S

H

= Installation depth

e

3

/h (l/s)

in m

A

in °C

A

, D and tAare usually specified by the customer,the

curves for different stage numbers for UPA 150S
and above).

(see page 10).

2. Pumping into a closed tank

Hp=HA+Ht+Hv+HS+pü[m]

with ...
p

= Gauge pressure (also air cushion) in a tank

ü

Example

Given ...

" Q

= 120 m3/h,

A

" H

= 100 m,

A

" t

=+15°C,

A

" 50 Hz,
" 400 V,
" d.o.l. starting,
" well diameter D = 300 mm (12 inches),
" H

=33m,

t

" H

=60m

e

Found ...

1. step: pump type UPA 200B/250C

(for QAtaken from selection chart on page 4).

2. step: pump size UPA 250C - 120

(for QAtaken from selection chart on page 50).

3. step: pump set UPA 250C-120/3f + UMA 200D 65/21

(for Hp=HA+Ht+HV+HS= 100 + 33 + 0.5 + 1.5 = 135 m.
with H
numbers on page 61)..

Pump efficiency: ηP= 81 % (without check valve).

taken from characteristic curves for different stage.

V

3300:54/3

Figure: Deep well with submersible borehole pump and
overhead tank or closed tank at a pressure above atmospheric
pressure of p

Ü.

8

60 Hz Submersible Borehole Pumps

Request for Quotation

We should like to test the efficiency and
quality of your computer-aided quotation

Discharge head requiredat the end of the
piping:

H = m ( bar)............. ........

process. Please let us have a quotation
based on the following data. (Fill in the
required data and / or underline the
relevant information, as far as available.)

8

1. Water quality

Temperature °C.....................

Sand content g/m

..................

Cut-out pressure in the pressure vessel:

p

= bar............

Ü

c) piping outside well head housing:

Overall length m....................

Nominal diameter mm...............

3

Number of bends, valves and fittings:
Please attach wateranalysis, if available.

7

2. Type of system

6

Well / Mine shaft / Tank
Free discharge above ground
Discharge into an overhead tank
Discharge into a pressure vessel

5

3. Deep well

Well depth (distance from ground level to
well base):

T

=m............................

B

Inside diameter at submersible pump

4

installation depth:

D = mm ( inches).............. ....

Well screen / filter:

-- Installation depth TF=m...........

-- Length LF=m...................

Inside diameter reduced by incrustation

to: D = mm........................

6. Installation depth

Ground level to check valve / to

connection branch:

H

=m............

e

Caution: Do not install the submersible

borehole pump at the level of the well

screen / filter!

7. Power supply

Single- / three-phase alternating current.

Mains voltage at well:

U= V.............................

Frequency f = Hz..................

If voltage drops cannot be precluded:

pcs................................

F

1 Well screen / filter
2 Well casing
3 Submersible borehole pump
4 Riser
5 Well head housing
6 Well head
7 Power supply cable
8 Overhead tank

3

2

1

3300:54/3

4. Capacity

Q= m3/h ( l/s)............. .......

5. Total head

(including all friction losses)

H= m............................

If H is not known, please provide the
following data:

a) Water level in well, measured from

ground level:

-- Static water level: H

-- Dynamic water level: Ht=m........

(at capacity Q = m
b) Head above ground:
Geodetic altitude up to the highest point

of the pipeline or up to the highest water
level in the overhead tank:

H

=m...........................

d

=m..........

h

3

/h)..............

Minimum voltage ...

U

=V...........

min

8. Control box

Manual start-up / remote control /

automatic start-up by way of float switch,

pressure switch or dry running protection

equipment.

Other types of switchgear: ...........

...................................

9. Starting method

D.o.l. (without / with autotransformer or

soft starter) or star-delta starting.

9

Head Losses in the Piping

H

V

m/100 m

60 Hz Submersible Borehole Pumps

H

V

ft/100 ft

The frictionlosses given inthe above chart roughlyapply to new
cast ironpipes. For new rolledsteel or plastic pipes, multiply the
values by approx. 0.8. For old, slightly rusty cast iron pipes,
multiply by approx. 1.25. In pipes with incrustations, friction
losses may rise to 1.7 times the value given in the chart for the
10

3300:103/3-2

diameter reduced by incrustations. For pipes subject to con­siderable incrustation, the friction losses can only be deter­mined experimentally.
Example: Q = 140 m

H

V

3

/h, new DN 150 cast iron pipe.

= 3.25 m per 100 m of pipe, v = 2.2 m/sec.

60 Hz S 100D

Applications

-- Domestic and general water supply

-- Irrigation and spray irrigation

-- Lowering groundwater levels

-- Fountains

-- Pressure boosting

-- Air-conditioning systems

-- Fire protection

-- Cooling water cycles

Operating Data

Capacity Q up to 16 m3/h (4 l/s...................

or up to 60 US GPM)

Head H up to 300 m......................

Temperature of fluid handled t up to +30 °C.

in continuous operation
Power P

up to 6.4 kW (8.7 hp).....................

n

Design

Pump:

Stainless steel and plastic multistage centrifugal pump.

-- Additional bearing depending on the number of stages

-- Pump sizes D1and D2 withanti-blockage feature. Thiscon-

sists of a hexagonal polyurethane disc mounted to the back
of the diffuser. A PE-HD ring fitted to the impeller front side
sits close to the disc. The impeller hub is protected by a
polyurethane ring.This design improves the starting torqueof
low-capacity pumps and has the effect that solid particles such
as sand are propelled outside instead of clogging the pump.

Motor:

Submersible canned motor (Franklin), NEMA standard, 60 Hz

-- For three--phase current

-- With motor lead

-- Connection to power supply mains by means of cable con-

nector (accessories)

-- D.o.l., start-up frequency up to 20 / h

-- Type of enclosure IP 68

-- Thermal class B

Submersible Borehole Pumps

for Well Diameters

of 100 mm (4 inches) and Above

Designation

Type series
Well diameter (mm)
Design status
Capacity (m
Number of stages

3

/h)

Certification

Quality management certified to ISO 9001

S 100 D -- 4 / 6

Product Features

-- Pumps sizes D1 and D2 with anti-blockage feature

-- Rust-proof

-- Suitable for installation in narrow deep wells

-- High efficiency

-- Hermetically sealed motor

-- Motor designed for maximum pump output

-- Low noise level

-- For vertical, angled or horizontal installation

-- Check valve with anti-blockage valve disc

-- Easy dismantling of check valve

11

60 Hz S 100D

Selection Chart (Ranges on Offer) n ¶ 3450 rpm

S 100D 2

S 100D 1

S 100D 4

S 100D 7

S 100D 12

12

60 Hz S 100D

Materials

Component Execution C1

Pump ...

Outer pump casing /
Suction casing /
Valve housing

Stage casing CrNi steel (1.4301)
Stage casing (diffuser) /

Impeller
Shaft Cr steel (1.4021)
Bearing bush Nitril NBR 80
Screws, bolts and nuts CrNiMo steel (A4--70)

Motor ...

Shaft CrNi steel (1.4305)
Bearing carrier CrNi steel (1.4301)
Stator case CrNi steel (1.4301)

CrNi steel (1.4301)

glass fibre reinforced Noryl

(PPO)

Bearings / Lubrication

Plain bearings, lubricated by the fluid pumped or by the motor
fill liquid. Depending on the number of stages, an additional in­termediate bearing is provided in the pump.

The axial thrust is balanced by a thrust bearing in the motor.
The hydraulic thrust is balanced by the pump’s counter thrust

bearing.

Direction of Rotation of the Pump

Clockwise rotation (viewed at the drive shaft end).

Pump End (Discharge Nozzle)

1

S 100D - 1, 2, 4 + 7: Internal thread G 1
S 100D - 12: Internal thread G 2’’ (DN 50).

/4” (DN 32).

Drive

Type canned motor in squirrel-.......................

cage design, 2 poles

Connection NEMA standard.................

Type of enclosure IP 68...........

Frequency 60 Hz.................

Type of current three-phase (3

Rated voltage U 460 V.............

Rated power P

Voltage fluctuations up to ± 5 % acc. to VDE..........

Frequency of starts up to 20 / h..........

Min. delay before restarting 3 min....

N

up to 5.5 kW (7.5 hp)................

µ)..............

Connection to Power Supply

All DN 100 motors are factory-equipped as follows:

2

1 x 1.5 m flat cable, quality4 x 1.5 mm
ductor).

Exception: DN 100 motors with a rating of 5.5 kW, 3~, are
equipped as follows: 1 x 2.5 m cable, quality 4 x 1.5 mm

Connection ofextension cable (any length)by means of acable
connector:

Connected at the factory by means of a standard cable con­nector (non-separable, shrink tube)

-- Ident No. 40 980 708

For cable quality 4 x 1.5 mm

-- Ident No. 39 020 536

For cable quality 4 x 4 mm

Connected at the factory with Franklin cable connector
(separable, sealing compound)

-- Ident No. 90 049 385

For cable quality 4 x 1.5 mm

2

(3 phases + 1 earth con-

2

or 4 x 2.5 mm

2

upto4x2.5mm

2

2

.

2

Starting Mode

Installation

Vertical and, depending on the number of stages, inclined as
well as horizontal installation (see tables on page 15 to 19)

Only direct on line.

Temperatures

The S 100D submersible borehole pump is designed for use in
water with temperatures of up to t = + 30

o

C.

13

Design Features (Pump sizes D1 -- D2)

Diffusers with smooth surfaces

-- Made of glass fibre reinforced
Noryl.

60 Hz S 100D

Stainless steel valve housing

Non-return valve with
double-guided valve disc

-- No jamming or tilting.

-- If not required, the non-return valve
may be removed.

Pump bearing with grooves

-- Maintenance-free and highly
wear-resistant.

-- For smooth long-term operation.

Stainless steel cable guard

-- Easy assembly and dismantling.

-- Protects the power supply cable
against damage.

High-performance i mpellers

-- Made of glass fibre reinforced
Noryl, highly abrasion- and
corrosion-resistant.

-- With integrated keys for easy
assembly.

State-of-the-art sintered metal
coupling

-- For optimum power transmission.

Stainless steel suction casing

Stainless steel stage casing
without return vanes

-- High pressure resistance.

-- Easy assembly and dismantling.

Anti-blockage feature with
self-lubricating reinforcing rings
with good anti-seizure properties
and high abrasion resistance.

-- Ensures smooth operation in water
with a low sand content.

-- Suitable for the low starting torque
of pump sizes D1 and D2 for small
capacities.

14

Franklin submersible motor

-- Designed for max. pump power to
protect unit from overloads.

-- Easy-to-fit plug-and-socket
connection of power supply cable.

S 100D -- 1

460

V

for well diameters of 100 mm (4 inches) and above
Pumps with submersible motors for ...

-- Temperature of fluid handled up + 30oC.....

-- Current / Operating voltage 3 µ/460 V......

-- Starting direct.......................

Rated
power

(motor)

Rated
power

(motor)

Current

intensity for

3 µ

Installation

60 Hz S 100D

Tolerances to

ISO 9906 Class 2

Annex A

1)

Pump unit

S 100D

P

kW

N

P

hp

N

I

N

A

1/ 7 0.59 0.80 1.5 v+h
1/ 9 0.83 1.13 2.1 v+h
1/12 0.83 1.13 2.1 v+h
1/14 1.0 1.36 2.4 v+h
1/16 1.0 1.36 2.4 v+h
1/20 1.4 1.90 3.1 v+h
1/25 1.8 2.45 4.1 v
1/30 1.8 2.45 4.1 v
1/35 1.8 2.45 4.1 v

1)

v = vertical, h = inclined / horizontal.

Note: Use a cooling shroud for horizontal installation.

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers / Horizontal Installation

3 µ / 460 V

Pump unit
S 100D

1/ 7

1/ 9

1/12

1/14

1/16

1/20

1/25

1/30

1/35

For information on cooling shroud refer to page 20.

L

A

¶ mm

546

619

686

760

805

923

1064

1176

1366

m

A

¶ kg

10.7

11.8

12.2

13.6

13.8

15.7

17.5

18.0

20.0

Ident. No. A

¶ mm

39 022 613

39 022 614

39 020 615

39 022 616

39 022 617

39 022 618

39 022 619

39 022 620

39 300 025

410

450

530

590

630

720

-- --

-- --

-- --

C

G11/4”

Capacity

15

S 100D -- 2

460

V

for well diameters of 100 mm (4 inches) and above
Pumps with submersible motors for ...

-- Temperature of fluid handled up + 30oC.....

-- Current / Operating voltage 3 µ/460 V......

-- Starting direct.......................

Rated
power

(motor)

Rated

power

(motor)

Current

intensity for

3 µ

Installation

60 Hz S 100D

Tolerances to

ISO 9906 Class 2

Annex A

1)

Pump unit
S 100D

P

kW

N

P

N

hp

I

N

A

2/ 7 1.00 1.36 3.4 v+h
2/11 1.40 1.90 4.3 v+h
2/15 1.80 2.45 5.6 v+h
2/18 2.50 3.40 8.6 v+h
2/20 2.50 3.40 8.6 v+h
2/22 2.50 3.40 8.6 v+h
2/27 3.40 4.62 10.6 v
2/30 3.40 4.62 10.6 v
2/33 4.20 5.71 15.5 v

1)

v = vertical and h = inclined / horizontal

Note: Use a cooling shroud for horizontal installation.

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers / Horizontal Installation

3 µ / 460 V

Pump unit
S 100D

2/ 7

2/11

2/15

2/18

2/20

2/22

2/27

2/30

2/33

For information on cooling shroud refer to page 20.

L

A

¶ mm

594

721

839

935

980

1048

1205

1272

1506

m

¶ kg

12.6

14.4

16.0

17.7

17.8

18.1

21.5

21.9

28.3

A

Ident-No. A

39 022 621

39 022 622

39 022 623

39 022 624

39 022 625

39 022 626

39 022 627

39 022 628

39 022 629

¶ mm

410

530

630

750

750

750

-- --

-- --

-- --

C

G11/4”

Capacity

16

S 100D -- 4

460

V

for well diameters of 100 mm (4 inches) and above
Pumps with submersible motors for ...

-- Temperature of fluid handled up + 30oC.....

-- Current / Operating voltage 3 µ/460 V......

-- Starting direct.......................

Rated

power

(motor)

Rated
power

(motor)

Current

intensity for

3 µ

Installation

60 Hz S 100D

Tole r a n c e s t o

24
21

1)

16

11

ISO 9906 Class 2

Annex A

Pump unit
S 100D

4/ 3 1.00 1.36 2.4 v+h
4/ 6 1.80 2.45 4.1 v+h

P

kW

N

P

N

hp

I

N

A

8

6

4/ 8 2.50 3.40 5.6 v+h
4/11 2.50 3.40 5.6 v+h
4/16 4.20 5.71 8.7 v+h
4/21 4.20 5.71 8.7 v+h

3

4/24 4.20 5.71 8.7 v

1) v = vertical, h = inclined / horizontal.

Note: Use a cooling shroud for horizontal installation.

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers / Horizontal Installation

3 µ / 460 V

Pump unit
S 100D

4/ 3

4/ 6

4/ 8

4/11

4/16

4/21

4/24

For information on cooling shroud refer to page 20.

L

A

¶ mm

556

663

768

845

1160

1287

1364

m

¶ kg

12.8

16.0

17.7

18.2

28.4

29.5

30.0

A

Ident. No. A

¶ mm

39 022 630

39 022 631

39 022 632

39 022 633

39 022 634

39 022 635

39 022 636

410

450

530

630

875

990

-- -- -- --

C

G11/4”

Capacity

17

S 100D -- 7

460

V

for well diameters of 100 mm (4 inches) and above
Pumps with submersible motors for ...

-- Temperature of fluid handled up + 30oC.....

-- Current / Operating voltage 3 µ/460 V......

-- Starting direct.......................

Rated
power

(motor)

Rated
power

(motor)

Current

intensity for

3 µ

Installation

60 Hz S 100D

Tole r a n c e s t o

ISO 9906 Class 2

18

1)

13

11

Annex A

Pump unit
S 100D

P

kW

N

P

N

hp

I

N

A

8

7/ 4 1.80 2.45 4.1 v+h
7/ 6 2.50 3.40 5.6 v+h
7/ 8 3.40 4.62 7.4 v+h

6

7/11 4.20 5.71 8.7 v+h
7/13 4.20 5.71 8.7 v+h
7/18 6.40 8.70 13.1 v

1) v = vertical, h = inclined / horizontal.

4

Note: Use a cooling shroud for horizontal installation.

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers / Horizontal Installation

3 µ / 460 V

Pump unit
S 100D

7/ 4

7/ 6

7/ 8

7/11

7/13

7/18

For information on cooling shroud refer to page 20.

L

A

¶ mm

671

768

903

1127

1195

1518

m

¶ kg

15.8

17.7

21.1

27.8

28.3

35.9

A

Ident. No. A

¶ mm

39 022 637

39 022 638

39 022 639

39 022 640

39 022 641

39 022 642

450

530

650

875

960

-- --

C

G11/4”

Capacity

18

S 100D -- 12

460

V

for well diameters of 100 mm (4 inches) and above
Pumps with submersible motors for ...

-- Temperature of fluid handled up + 30oC.....

-- Current / Operating voltage 3 µ/460 V......

-- Starting direct.......................

Rated-

power

(motor)

Rated-

power

(motor)

Current

intensity for

3 µ

Installation

60 Hz S 100D

Tolerances to

ISO 9906 Class 2

Annex A

1)

Pump unit
S 100D

P

kW

N

P

hp

N

I

N

A

12 / 4 1.80 2.45 4.1 v+h
12 / 6 3.40 4.62 7.4 v+h
12 / 10 4.20 5.71 8.7 v
12 / 13 6.40 8.70 13.1 v

1) v = vertical, h = inclined / horizontal.

Note: Use a cooling shroud for horizontal installation.

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers / Horizontal Installation

3 µ / 460 V

Pump unit
S 100D

12 / 4

12 / 6

12 /10

12 /13

For information on cooling shroud refer to page 20.

L

A

¶ mm

835

1039

1378

1694

m

¶ kg

15.9

21.3

28.3

37.0

A

Ident. No. A

¶ mm

39 022 643

39 022 644

39 022 645

39 022 646

630

750

-- --

-- --

C

G2”

Capacity

19

Permissible Cable Lengths

9006549

4

9006549

5

∆Uupto3%,directstartingandtupto+30

Current /

Voltage

3 µ /

460 V

Motor
rating

Motor
rating

kW hp 1.5 2.5 4.0 6.0

1.0

1.4

1.8

3.2

3.4

4.2

6.4

1.36

1.90

2.45

4.35

4.62

5.71

8.70

352 m
262 m
203 m
154 m
118 m

Technical Data - Cooling Shroud

Pump unit
S 100D

Installation

1)

Dimensions (dia. x length)
and motor type (kW)

60 Hz S 100D

o

C

Cable lengths for

cable cross-section in ... mm

97 m
62 m

587 m
437 m
339 m
258 m
197 m
161 m
104 m

-- -­700 m
542 m
413 m
316 m
259 m
167 m

Cooling Shroud
Ident. No.

2

-- --

-- --

-- -­619 m
474 m
388 m
251 m

Strainer
Ident. No.

Support feet
Ident. No.

1/7to1/16
2/7
4/3

1/20 to 1/30
2/11 to 2/15
4/6
7/4
12/4

2/18 to 2/22
2/27 to 2/30
4/8 to 4/11
7/6 to 7/8
12/6

2/33
4/16 to 4/21
4/24
7/11 to 7/13
7/18
12/10 to 12/13

1)

v = vertical, h = inclined / horizontal

v+h
v+h
v+h

v
v+h
v+h
v+h
v+h

v+h

v
v+h
v+h
v+h

v
v+h

v
v+h

v

v

Ø1 15 (130) x 400
up to 1.0 kW (3~)
Weight 1.5 kg

Ø1 15 (130) x 500
up to 1.8 kW (3~)
Weight 1.7 kg

Ø1 15 (130) x 625
up to 3.4 kW (3~)
Weight 2.0 kg

Ø1 15 (130) x 800
up to 6.4 kW (3~)
Weight 2.5 kg

90 065 490

90 065 491

90 065 492

90 065 493

Ø115x117
Weight 0.3 kg

Set = 2 pc.
Weight 0.6 kg

20

60 Hz UPA 100C

Applications

-- Domestic and general water supply

-- Irrigation and spray irrigation

-- Groundwater lowering

-- Fountains

-- Pressure boosting

-- Air-conditioning systems

-- Fire protection

-- Cooling water cycles

Operating Data

Capacity Q up to 18 m3/h (5 l/s...................

or up to 80 US GPM)

Head H up to 450 m......................

Temperature of fluid handled t up to +30 °C..

..

up to 7.5 kW (10 hp)...............

N

3

Motor ratings P
Maximum permissible

amount of suspended sand: 50 g/m

Design

Multistage centrifugal pump with components made of stain-

less steel and additional bearing for each stage.
Submersible canned motor: Franklin Electric pre-filled mo-

tors, corrosion free, NEMA shaft end, 60 Hz

-- three-phase motor type Super Stainless

-- with separate lead

-- direct start, max starts : 20 / h

-- Type of enclosure: IP 68

-- Insulation: Class B

Submersible Borehole Pumps

of Stainless Steel

for Well Diameters

of 100 mm (4 inches) and Above

Designation

Type series
Minimum well diameter (mm)
Design status
Capacity Q
Number of stages

(US GPM)

opt

Certification

Quality management certified to ISO 9001

UPA 100 C 10 -- 6

Product Features

-- Very sturdy design

-- All components made of stainless steel

-- Suitable for installation in narrow deep wells

-- High efficiency

-- Totally enclosed motor

-- Motor designed for maximum pump output

-- Low noise level

-- For vertical or horizontal installation

-- Non-return valve protected against blocking

-- Pre-filled motor without risk of contamination of the pumped
water

21

60 Hz

UPA 100C

Selection Chart (Ranges on Offer) n ¶ 3500 rpm

UPA 100C 16

UPA 100C 10

UPA 100C 22

UPA 100C 35

UPA 100C 10

UPA 100C 16

UPA 100C 22

UPA 100C 60

UPA 100C 35

UPA 100C 60

Note: The diagram shows the ∆QArange on offer. The pumps can be offered for any duty point within this range. The operating

ranges ∆Q

of the individual pump sizes are given in the characteristic curves for different stage numbers on the following pages.

B

22

60 Hz UPA 100C

Materials

Components Execution C1

Pump ...

Diffuser,
upper diffuser,
lower diffuser,
Impeller,
Pump shaft with NEMA
coupling,
Suction casing,
suction filter,
Discharge casing,
Spacer sleeve,
Hook

Seal ring NBR + AISI 316
Upper bearing bush NBR + AISI 316
Intermediate bearing bush NBR
Valve face NBR + AISI 316

Motor ...

Shaft stainless steel AISI 304 SS
Bearing housing stainless steel AISI 304 SS
Stator case stainless steel AISI 304 SS

stainless steel AISI 304

Drive

Type submersible canned motor...................

Connection NEMA standard.............

Type of enclosure IP 68........

Frequency 60 Hz..............

Type of current three-phase..........

Rated voltage U 3~ 460 V.........

Rated power P

N

up to 7.5 kW (10 hp).........

Voltage fluctuations up to +/-- 10 %......

Start-up frequency up to 20 / h.......

Min. standstill time 3 min.......

Starting Mode

Direct on line.

Temperatures

The UPA100 C submersible borehole pump is designedfor use
in water with temperatures of up to +30 °C.

Direction of Rotation of the Pump

Clockwise rotation (viewed at the drive shaft end).

Pump End (Discharge Nozzle)

UPA 100C 10 -- 16 -- 22: Rp 11/2’’

35 -- 60 Rp 2’’

Installation

Vertical or horizontal installation without restriction.
In order to guarantee the dissipation of the motor driving hea-

ting. Itwill be necessaryto install adevice guidingthe flow along
the motor (cooling shroud, flow inducer sleeve, etc.) in horizon­tal installation.

Permissible Cable Lengths

∆Uupto3%,d.o.lstartingandtupto+30°C.

Current /

Voltage

3~ /

460V

Motor-

rating

kW hp

0.75

1.10

1.50

2.20

3.00

3.70

4.00

5.50

7.50

Motor-

rating

1.02

1.50

2.04

3.00

4.08

5.03

5.44

7.48

10.2

Cable lengths for

cable cross-section in ... mm

1.5 2.5 4.0 6.0

352 m
262 m
203 m
154 m
118 m

97 m
84 m
62 m
48 m

587 m
437 m
339 m
258 m
197 m
161 m
140 m
104 m

80 m

Variants Available on Request

-- Higher medium temperatures

-- Voltages above 500 V

-- Other frequencies

700 m
542 m
413 m
316 m
259 m
224 m
167 m
128 m

2

--

--

--

-­619 m
474 m
388 m
336 m
251 m
192 m

23

Design Features

Optimised operating costs:
Check valve, built into the dis-

charge chamber, designed for low
loss of head.

Hydraulic profiles are optimized for
the attainment of high efficiencies.

60 Hz

UPA 100C

Resistance to corrosion and abra­sion, i.e. the same inherent qualities
of stainless steel.

Oversized intermediate bearings
located at each pump stage to
align the shaft, specially designed
to optimize lubrication.

Coupling and flange suitable
for motors with pump mount­ing dimensions in accor­dance with NEMA standards.

Reliable in service:
Very strong construction: minimum

thickness of stainless sheet steel of
1 mm, 6 spot welding on each vane,
special top bearing for every pump.

Friendly service:
Great ease of dismantling and as-

sembly.
Easy-to-replace wear-rings and

bearings.

24

UPA 100C 10 -- ...

(Motor)

(Motor)

3

~

60 Hz UPA 100C

D1

(3.86 inch)

(3.75 inch)

ØD1max:
Pump = 96.5 mm

Pump with motor
= 98.0 mm

Rated
power
(Motor)

Pump unit

UPA 100C 10 -- ..

6

9
12
15
21

27
34
41
48
54
62

1)

Capacitor run motors (PSC motors) with starter.

P

kW

0.37

0.37

0.55

0.75

1.1

1.5

2.2

3.7

3.7

3.7

3.7

Rated
power

(Motor)

N

P

hp

0.50

0.50

0.75

1.00

1.50

2.00

3.00

5.00

5.00

5.00

5.00

Rated current

N

for
3~

460 V

I

N

A

1.5

1.5

2.1

2.4

3.1

4.1

5.6

8.7

8.7

8.7

8.7

62

UPA 100C 10 -- ...

(Tolerances to ISO 2548
Class C, Annex B)

54

48

41

34

27

21

15

12

9

6

1)

Capacity

Operating range: 1.1 -- 3.2 m3/h (5.0 -- 14.0 US GPM)
Q

=1.1m3/h (5.0 US GPM)

min

Q

= End of characteristic curve

max

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers

Pump unit

UPA 100C 10 -- ..

6

9

12

15

21

27

34

41

48

54

62

A ≈ inches A ≈ mm B ≈ inches B ≈ mm C ≈ inches C ≈ mm Ident. No.

13.74

16.57

19.45

22.28

27.99

34.09

40.31

46.97

53.62

63.11

65.98

349

421

494

566

711

866

1024

1193

1362

1603

1676

9.53

9.53

10.66

11.75

11. 75

13.62

16.06

22.20

22.20

22.20

22.20

For horizontal installation, a device guiding the flow along the motor (cooling shroud, flow inducer sleeve, etc.) will be required.

3~ / 460 V

242

242

271

298

298

346

408

564

564

564

564

23.27

26.10

30.11

34.03

39.74

47.74

56.37

69.17

75.82

80.54

85.30

591

663

765

864

1009

1212

1432

1747

1926

2046

2167

90 065 337

90 065 338

90 065 339

90 065 340

90 065 341

90 065 342

90 065 343

90 065 344

90 065 345

90 065 346

90 065 347

mA≈ kg

12.1

13.2

15.6

18.1

20.1

24.0

29.7

41.2

43.8

45.1

49.1

25

UPA 100C 16 -- ...

(Motor)

(Motor)

3

~

60 Hz

UPA 100C

D1

(3.86 inch)

(3.75 inch)

ØD1max:
Pump = 96.5 mm

Pump with motor
= 98.0 mm

Rated

Rated

power

P

kW

0.37

0.55

0.75

1.10

1.50

2.20

3.70

3.70

5.50

5.50

power

(Motor)

N

(Motor)

Pump unit

UPA 100C 16 -- ..

5

8
10
14
18
24
31
41
51
62

1)

Capacitor run motors (PSC motors) with starter.

P

hp

0.50

0.75

1.00

1.50

2.00

3.00

5.00

5.00

7.50

7.50

Rated current

N

for
3~

460 V

I

N

A

1.5

2.1

2.4

3.1

4.1

5.6

8.7

8.7

13.1

13.1

UPA 100C 16 -- ...

62

51

41

31

24

18

14

10

8

5

1)

Operating range: 2.2 -- 4.5 m3/h (10 -- 20 US GPM)

=2.2m3/h (10 US GPM)

Q

min

= End of characteristic curve

Q

max

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

(Tolerances to ISO 2548
Class C, Annex B)

Capacity

Dimensions / Weights / Ident. Numbers

Pump unit

UPA 100C 16 -- ..

5

8

10

14

18

24

31

41

51

62

A ≈ inches

12.79

15.63

16.81

21.34

25.12

30.83

37.48

46.97

55.50

65.98

A ≈ mm B ≈ inches B ≈ mm C ≈ inches C ≈ mm Ident. No.

325

397

427

542

638

783

952

1193

1410

1676

9.53

10.66

11. 75

11.75

13.62

16.06

22.20

22.20

28.20

28.20

For horizontal installation, a device guiding the flow along the motor (cooling shroud, flow inducer sleeve, etc.) will be required.

26

3~ / 460 V

242

271

298

298

346

408

564

564

716

716

18.32

26.29

28.56

33.09

38.74

46.89

59.68

69.17

83.69

94.16

567

668

725

840

984

1191

1516

1757

2126

2392

90 065 348

90 065 349

90 065 350

90 065 351

90 065 352

90 065 353

90 065 354

90 065 355

90 065 356

90 065 357

mA≈ kg

11. 7

14.2

16.2

17.6

20.9

26.1

37.7

41.2

50.4

54.0

UPA 100C 22 -- ...

(Motor)

(Motor)

3

~

D1

(3.86 inch)

(3.75 inch)

ØD1max:
Pump = 96,5 mm

Pump with motor
= 98,0 mm

Rated
power
(Motor)

Pump unit

UPA 100C 22 -- ..

4
6

7
10
13
19
26
31
39
47
60

1)

Capacitor run motors (PSC motors) with starter.

P

kW

0.37

0.55

0.75

1.10

1.50

2.20

3.70

3.70

5.50

5.50

7.50

Rated
power

(Motor)

N

P

hp

0.50

0.75

1.00

1.50

2.00

3.00

5.00

5.00

7.50

7.50

10.0

Rated current

N

for

3~

460 V

I

N

A

1.5

2.1

2.4

3.1

4.1

5.6

8.7

8.7

13.1

13.1

17.0

60 Hz UPA 100C

UPA 100C 22 -- ...

60

47

39

31

26

19

13

10

7

6

4

1)

(Tolerances to ISO 2548
Class C, Annex B)

Capacity

Operating range: 2.2 -- 6.8 m3/h (10 -- 30 US GPM)

=2.2m3/h (10 US GPM)

Q

min

= End of characteristic curve

Q

max

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers

Pump unit

UPA 100C 22 -- ..

4

6

7

10

13

19

26

31

39

47

60

A ≈ inches

11. 85

13.74

14.68

16.81

20.39

26.06

32.72

37.48

45.08

52.68

64.10

A ≈ mm B ≈ inches B ≈ mm C ≈ inches C ≈ mm Ident. No.

301

349

373

427

518

662

831

952

1145

1338

1628

9.53

10.66

11. 75

11.75

13.62

16.06

22.20

22.20

28.20

28.20

30.47

For horizontal installation, a device guiding the flow along the motor (cooling shroud, flow inducer sleeve, etc.) will be required.

3~ / 460 V

242

271

298

298

346

408

564

564

716

716

774

21.37

24.40

26.43

28.56

34.01

42.12

54.92

59.68

73.28

80.88

94.57

543

620

671

725

864

1070

1547

1516

1861

2054

2402

90 065 358

90 065 359

90 065 360

90 065 361

90 065 362

90 065 363

90 065 364

90 065 365

90 065 366

90 065 367

90 065 368

mA≈ kg

11. 4

13.3

15.1

16.4

19.1

28.4

35.9

37.4

47.3

50.2

57.2

27

UPA 100C 35 -- ...

(Motor)

(Motor)

3

~

D1

(3.86 inch)

60 Hz

41

36

31

26

20

UPA 100C

UPA 100C 35 -- ...

(Tolerances to ISO 2548
Class C, Annex B)

(3.75 inch)

ØD1max:
Pump = 96,5 mm

Pump with motor
= 98,0 mm

Rated

Rated

power

P

kW

0.37

0.55

0.75

1.10

1.50

2.20

3.70

3.70

5.50

5.50

7.50

7.50

power

(Motor)

N

(Motor)

Pump unit

UPA 100C 35 -- ..

2
4
5
7
9

12
16
20
26
31

36
41

1)

Capacitor run motors (PSC motors) with starter.

P

hp

0.50

0.75

1.00

1.50

2.00

3.00

5.00

5.00

7.50

7.50

10.0

10.0

Rated current

N

for

3~

460 V

I

N

A

1.5

2.1

2.4

3.1

4.1

5.6

7.4

7.4

13.1

13.1

17.0

17.0

16

12

9

7

7

5

4

2

1)

Capacity

Operating range: 3.3 -- 10 m3/h (15--45 US GPM)

=3.3m3/h (15 US GPM)

Q

min

= End of characteristic curve

Q

max

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers

242

271

298

298

346

408

564

564

716

716

1115

1115

3~ / 460 V

19.49

22.51

24.55

26.43

27.49

35.51

45.43

49.20

60.92

65.68

86.10

90.87

495

572

623

671

698

902

1154

1250

1547

1668

2187

2054

90 065 369

90 065 370

90 065 371

90 065 372

90 065 373

90 065 374

90 065 375

90 065 376

90 065 377

90 065 378

90 065 379

90 065 380

mA≈ kg

10.8

12.7

14.4

15.1

17.6

21.7

32.4

33.3

42.7

44.4

48.5

50.3

Pump unit

UPA 100C 35 -- ..

2

4

5

7

9

12

16

20

26

31

36

41

A ≈ inches

9.96

11.85

12.80

14.68

15.87

19.45

23.23

27.00

32.72

37.48

42.20

46.97

A ≈ mm B ≈ inches B ≈ mm C ≈ inches C ≈ mm Ident. No.

253

301

325

373

403

494

590

686

831

952

1072

1193

9.53

10.66

11. 75

11.75

13.62

16.06

22.20

22.20

28.20

28.20

43.90

43.90

For horizontal installation, a device guiding the flow along the motor (cooling shroud, flow inducer sleeve, etc.) will be required.

28

UPA 100C 60 -- ...

(Motor)

(Motor)

3

60 Hz UPA 100C

D1

UPA 100C 60 -- ...

(Tolerances to ISO 2548
Class C, Annex B)

(3.86 inch)

(3.75 inch)

ØD1max:
Pump = 96,5 mm

Pump with motor
= 98,0 mm

Rated
power

(Motor)

Pump unit

UPA 100C 60 -- ..

4
5
7

9
13
18

1)

Capacitor run motors (PSC motors) with starter.

P

kW

1.50

2.20

3.70

3.70

5.50

7.50

Rated
power

(Motor)

N

P

hp

2.00

3.00

5.00

5.00

7.50

10.0

Rated current

N

for

3~

460 V

I

N

A

4.1

5.6

8.7

8.7

13.1

17.0

18

13

9

7

5

4

1)

Operating range: 5.5 -- 18.0 m3/h (25--80 US GPM)

=5.5m3/h (25 US GPM)

Q

min

Q

= End of characteristic curve

max

The characteristic curves shown are for preliminary selection only.
Exact selection data will be provided in our quotation.

Dimensions / Weights / Ident. Numbers

Capacity

Pump unit

UPA 100C 60 -- ..

4

5

7

9

13

18

A ≈ inches

14.45

15.94

19.02

22.00

28.11

35.71

A ≈ mm B ≈ inches B ≈ mm C ≈ inches C ≈ mm Ident. No.

367

405

483

559

714

907

13.62

16.06

22.20

22.20

28.20

43.90

For horizontal installation, a device guiding the flow along the motor (cooling shroud, flow inducer sleeve, etc.) will be required.

3~ / 460 V

346

408

564

564

716

1115

28.07

32.01

41.22

44.21

56.30

79.62

713

813

1047

1123

1430

2022

90 065 381

90 065 382

90 065 383

90 065 384

90 065 385

90 065 386

mA≈ kg

16.2

19.8

29.7

30.5

39.5

43.4

29

60 Hz

UPA 100C

30

60 Hz

UPA 150C

Applications

Suitable for handling clean or slightly contaminated water
in applications such as:

-- domestic water supply

-- general water supply

-- irrigation and spray irrigation systems

-- artificial lowering of the ground water level as well as

-- heat transfer plants
In addition, the pump sets are used in pressure

boosting systems, air-conditioning systems, fountains, etc.
Permissible sand content in the fluid handled: 50 g/m

3

.

Operating Data

Capacity Q up to 93 m3/h (26 l/s)..................

Head H up to 730 m.....................

Temperature of fluid handled t up to 50 °C.

Speed n 3500 rpm....................

Design

Multistage centrifugal pump with components made of

stainlesssteel and additional bearingfor eachstage. Thestage
casings are connected by means of tie bolts.

Motor

Canned or wet submersible squirrel-cage motor, 2 poles;
NEMA shaft end; 60 Hz; type of enclosure: IP 68

Submersible Borehole Pumps

for Well Diameters of

150 mm (6 inches)

Designation (Example)

UPA 150 C -- 1 6 / 9

Type series
Minimum well diameter (mm)
Design status

3

Capacity (m
Number of stages

/h)

Certification

Quality management certified to ISO 9001

Product Features

-- Rust-proof

-- Suitable for installation in narrow deep wells

-- High efficiency

-- Motor designed for maximum pump output

-- Low noise level

-- For vertical, angled or horizontal installation

-- Check v alve with anti-blockage valve disc

31

60 Hz

UPA 150C

Selection Charts (Ranges on Offer) n ≈ 3500 rpm

UPA 150C -- 60

UPA 150C -- 16

UPA 150C -- 30

UPA 150C -- 16

UPA 150C -- 48

32

UPA 150C -- 30

UPA 150C -- 48

UPA 150C -- 60

60 Hz

UPA 150C

Material Variants

Component

Pump

Suction casing 1.4408
Stage casing 1.4301 1.4404
Stage casing with hole 1.4301 1.4404
Upper stage casing 1.4301 1.4404
Suction strainer 1.4401 1.4404
Flanged end piece 1.4408
Shaft 1.4305 1.4401
Impeller 1.4301 1.4404
Thrust bearing HY22
Counter thrust bearing A2 A4
O-ring NBR
Casing wear ring NBR
Impeller wear ring 1.4301 1.4404
Bearing bush NBR
Disc 1.4301 1.4404
Valve body 1.4408
Valve spring 1.4401
Valve plate 1.4404
Coupling 1.4308 1.4408
Tiebolt 1.4301 1.4404
Hexagon socket head screw A2 A4
Hexagon socket head screw A4 A4
Nut A2 A4
Impeller nut 1.4401
Locking sleeve 1.4401
Clamp 1.4301 1.4404
Cable support 1.4301 1.4404
Protection plug HY22

Component

Motor

Shaft 1.4305 1.4462

Bearing carrier

Stator case 1.4301 1.4571

DN 100 1.4301 1.4401
UMA 150D

C1 (AISI 304) C2 (AISI 316)

C1 (AISI 304) C2 (AISI 316)

Material

Material

JL--1030 1.4409

Description

1.4301 CrNi steel

1.4305 CrNi steel

1.4308 CrNi steel

1.4401 CrNiMo steel

1.4404 CrNiMo steel

1.4408 CrNiMo steel

1.4462 CrNiMo steel

1.4571 CrNiMo steel
JL -- 1030 cast iron
A2 CrNi steel
A4 CrNiMo steel
HY22 Carbon/graphite in PTFE
NBR Acrylnitril--Butadien-- Kautschuk

Bearings / Lubrication

Radial plain bearings: pump bearings lubricated by the fluid
handled, motorbearings by the motor’s water fill. Axial thrust is
balancedby a tilting-pad thrustbearing inthe motor (lowerend).

Direction of Rotation of the Pump

Clockwise rotation (when looking at the drive shaft end).

Pump End (Discharge)

UPA 150C submersible borehole pumps can be supplied with
the following discharge ends:

G21/2” G3” G4” DN 50 DN 65 DN 80
UPA 150C -- 16 x x -- x x x
UPA 150C -- 30 -- x x -- x x
UPA 150C -- 48 -- x x -- x x
UPA 150C -- 60 -- x x -- x x

Coating (Bearing carrier)

UMA 150D motor:

Quality powder coating, approved for...........

drinking water contact

Type of Installation

Standard vertical installation. Depending on the number of
stages, horizontal installation is also possible.
Motor DN 100: In order to guarantee the dissipation of the
motorheat it will benecessary toinstalla deviceguiding the flow
along the motor (cooling jacket, flow inducer sleeve, etc.) in
horizontal installation.

Drive

Design Canned1)or wet2)submersible..............

squirrel-cage motor, 2 poles

Connection NEMA standard..........

Type of enclosure IP 68....

Frequency f 60 Hz..........

Type of current three-phase (3 ~).......

Rated voltage U up to 460V......

Rated power P

N

Frequency of starts 20 / h1)and 15 / h
Minimum delay
before restarting 1 min

......

...

up to 44 kW........

1)

or 2 min

2)

2)

Motor design is in compliance with VDE regulations.

1)

Motor DN 100

2)

Motor UMA 150D

Connection to Power Supply

The submersible motors are supplied ex factory with 1 or 2
motorleads, each equippedwith an earthconductor.All motors
are provided with internal earthing. Any extension cables
required are connected using water-tight cable connectors.
Motor leads and extension cables are suitable for drinking
water applications.

33

60 Hz

Starting

Motor DN 100 d.o.l. only.....

(autotransformer or soft starter)

Motor UMA 150D d.o.l. (autotransformer or soft starter)..

or star-delta

Variable Speed

The submersible borehole pumps can also be equipped with a
speed control system to accommodate different operating
points.

Application Temperatures

The submersible borehole pumps are, as a standard, suitable
for use in water with temperatures of up to t = + 30 °C. An
indispensable requirement for this is a flow velocity of
v =0.5 m/spast the motor.This requirementis met,for example,
when thepump is installed ina deep well above the well screen
/filter,etc.
Withcertain restrictions,some motor sizesmay also be used in
water with temperatures of up to t = + 50 °C or for operation
without an adequate cooling flow of water past the motor, i.e.
v = 0 m/s (for example, when the unit is installed in a deep well
below the screen / filter area or in a pump sump, etc.).

UPA 150C

Variants Available on Request

-- Other supply voltages up to 1000 V

-- Models with cooling, suction or pressure shroud

34

Design Features of the pump

Corrosion resistance

The pump and motor are constructed
of high--grade stainless steel as
standard -- producing consistently
high efficiency levels. Also available
in higher grade CrNiMo steel for
aggressive fluids.

60 Hz

UPA 150C

Flexibility

D Exchangeable connection variants
D Check valvecan beremoved easily
D Suitable for vertical installation in

deep wells or horizontalinstallation

D NEMA connection

Low operating costs

High efficiency and low--loss check
valve maintain long--term energy
savings over the entire service life­time of the unit.

Maintenance--friendly design

D Simple disassembly and reassembly
D Rewindable motors

High operating reliability and
long service life

Equipped with reinforced suction
strainer, robust drive lantern and
check valve made of investment
cast stainless steel. Laser--welded
impellers.
Protected against thrust reversal.

Hygienic and approved
for drinking water

ACS approved

35

Design Features of the motor UMA 150D

60 Hz

UPA 150C

The KSB motor

-- VDE-compliant, i.e., high level of
electrical safety.

-- Designed for max. pump power
to protect unit from overloads.

Counter thrust bearing

-- Reliable balancing of negative axial
thrust.

-- Impellers do not rub on the stage
casings.

Tried and tested thrust bearing

-- Water-lubricated self-aligning
tilting-pad journal bearing.

-- No-maintenance design suitable for
maximum load-carrying capacity
under continuous operation
conditions.

-- New materials combination (stainless
steel / carbon) for high safety factor.

Dynamically balanced rotor

-- Ensures smooth running.

36

60 Hz

UPA 150C

37

60 Hz

page4

1

UPA 150C -- 16 / ...; number of stages 1 -- 15

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressure losses Hvin the
check valve are not considered in
the pump characteristic curves.

Legend ...
H

: Head losses in the check

v

valve

η

: Pump efficiency (not

p

considering check valve)

NPSH:Net positive suction head

required by the pump

Pump End G 21/2”

The information given below is
based on the model with check
valve and threaded end.

The changes in the main
dimensionsresultingfromdifferent
threaded or flanged ends are
specified in the table below.

UPA 150C

Overall

length (mm)
G21/2” 40
G3” 48
G4” 93
DN 50 77 165
DN 65 77 185
DN 80 77 200

Threaded end to DIN ISO 228, Part 1.
Flange end to DIN 2501, Part 1

D

G21/2”

Lp

max

D

max

(mm)

see

L

A

38

60 Hz

page4

1

UPA 150C -- 16 / ...; number of stages 16 -- 45

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressure losses Hvin the
check valve are not considered in
the pump characteristic curves.

Legend ...
H

: Head losses in the check

v

valve

η

: Pump efficiency (not

p

considering check valve)

NPSH:Net positive suction head

required by the pump

Pump End G 21/2”

The information given below is
based on the model with check
valve and threaded end.

The changes in the main
dimensionsresultingfromdifferent
threaded or flanged ends are
specified in the table below.

UPA 150C

Overall

length (mm)
G21/2” 40
G3” 48
G4” 93
DN 50 77 165
DN 65 77 185
DN 80 77 200

Threaded end to DIN ISO 228, Part 1.
Flange end to DIN 2501, Part 1

D

G21/2”

Lp

max

D

max

(mm)

see

L

A

39

60 Hz

UPA 150C

Technical Data

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3 µ) / 460 V.........................

-- Starting d.o.l. (D) or star-delta (Y -∆)......................................

Pump Motor

UPA 150C -- 16 / ...

Discharge

head

Q=0m

H

0

m

3

/h

P

kW

Rated

power

N

Max. temperature

of the fluid pumped

P

N

hp

v ≥ 0.5 m/s

1)

t

max

_C

Rated

current

I

N

A

Effi-

ciency

η

M

%

Power

factor

cos ϕ

-- --

1 + DN 100 - 1.1 15.6 1.3 1.7 30 2.9 74.0 0.77 4x1.5 --

2 + DN 100 - 2.2 31 2.5 3.4 30 5.6 77.0 0.77 4x1.5 --

3 + DN 100 - 3.0 47 3.4 4.6 30 7.4 79.0 0.76 4x1.5 --

4 + DN 100 - 3.7 64 4.2 5.6 30 8.7 78.0 0.79 4x1.5 -­5 + UMA 150D 5/21 82 5.5 7.4 42 12.1 75.5 0.79 4x2.5 3/4 x 2.5

6 + UMA 150D 5/21 98 6.5 8.7 39 13.6 75.5 0.83 4x2.5 3/4 x 2.5

7 + UMA 150D 7/21 115 7.5 10.1 40 15.6 77.5 0.81 4x2.5 3/4 x 2.5
8 + UMA 150D 9/21 131 8.5 11.4 40 17.4 79.0 0.80 4x2.5 3/4 x 2.5

9 + UMA 150D 9/21 147 9.5 12.7 38 19.0 78.5 0.82 4x2.5 3/4 x 2.5

10 + UMA 150D 9/21 162 10.0 13.4 35 19.8 78.5 0.83 4x2.5 3/4 x 2.5

11 + UMA 150D 13/21 181 11.5 15.4 41 23.0 82.0 0.77 4x2.5 3/4 x 2.5
12 + UMA 150D 13/21 197 12.5 16.8 40 24.5 82.0 0.79 4x2.5 3/4 x 2.5

13 + UMA 150D 13/21 212 13.5 18.1 38 26.0 82.0 0.81 4x2.5 3/4 x 2.5

14 + UMA 150D 13/21 228 14.5 19.4 37 27.5 81.5 0.82 4x2.5 3/4 x 2.5
15 + UMA 150D 13/21 243 15.0 20.1 35 28.5 81.5 0.82 4x2.5 3/4 x 2.5

16 + UMA 150D 13/21 258 15.6 20.9 33 29.0 81.5

17 + UMA 150D 15/21 275 17.0 22.8 35 31.0 82.5

18 + UMA 150D 15/21 291 18.0 24.1 34 33.0 82.0
19 + UMA 150D 18/21 310 20.0 26.8 36 37.0 83.0

20 + UMA 150D 18/21 325 20.0 26.8 34 37.0 83.0

21 + UMA 150D 18/21 340 21.0 28.2 33 39.0 83.0

22 + UMA 150D 18/21 356 22.0 29.5 31 40.5 82.5
23 + UMA 150D 22/21 376 24.0 32.2 37 44.0 84.5

24 + UMA 150D 22/21 391 25.0 33.5 36 45.5 84.5

25 + UMA 150D 22/21 406 25.0 33.5 35 45.5 84.5
26 + UMA 150D 22/21 421 26.0 34.9 34 47.0 84.5

27 + UMA 150D 22/21 437 26.4 35.4 33 47.5 84.5

28 + UMA 150D 26/21 457 29.0 38.9 38 52.0 85.5

29 + UMA 150D 26/21 472 30.0 40.2 37 54.0 85.5
30 + UMA 150D 26/21 487 30.0 40.2 36 54.0 85.5

33 + UMA 150D 30/21 540 34.0 45.6 37 62.0 86.0

36 + UMA 150D 30/21 585 36.0 48.3 35 64.0 85.5
39 + UMA 150D 37/22 635 40.0 53.6 48 72.0 85.0

42 + UMA 150D 37/22 682 42.0 56.3 46 76.0 85.0

45 + UMA 150D 37/22 727 44.0 59.0 43 78.0 85.0

1)

also see page 34

2)

3/4 = 1 x 3-core + 1 x 4-core, 90_ spacing.

3)

Parallel cable

0.83

0.84

0.84

0.82

0.82

0.82

0.83

0.81

0.82

0.82

0.83

0.83

0.83

0.83

0.83

0.82

0.83

0.82

0.83

0.84

Motor lead2),flat

Number x cross-section

of conductors (use under

water, 460 V and ≤ +30 _C)

d.o.l.

mm

2

Y-∆

mm

4x2.5 3/4 x 2.5

4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5
4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5
4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5
4x4.0 3/4 x 2.5

4x4.0 3/4 x 2.5

4x6.0 3/4 x 4.0

4x6.0 3/4 x 4.0
4x6.0 3/4 x 4.0

4x6.0 3/4 x 4.0

4x6.0 3/4 x 4.0
3/4 x 4.0

3/4 x 4.0

3/4 x 4.0

3)

3/4 x 4.0

3)

3/4 x 4.0

3)

3/4 x 4.0

2

40

60 Hz

P

A

g

q

UPA 150C

Dimensions / Weights / Horizontal Installation

L

L

P

mm

UPA 150C -- 16 / ...

C1 (AISI 304) C2 (AISI 316)

1 337 635 635 17 139 -- v
2 397 755 755 21 139 -- v

3 458 880 880 25 139 -- v

4 518 1075 1075 34 139 -- v

5 611 1310 1310 62 148 148 v+h
6 671 1370 1370 63 148 148 v+h

7 732 1455 1450 66 148 148 v+h

8 792 1545 1540 71 148 148 v+h

9 853 1605 1600 72 148 148 v+h
10 913 1665 1660 73 148 148 v+h

11 974 1805 1805 82 148 148 v+h

12 1034 1865 1865 83 148 148 v+h
13 1095 1925 1925 85 148 148 v+h

14 1155 1985 1985 86 148 148 v+h

15 1216 2045 2045 87 148 148 v+h

16 1276 2105 2105 89 148 148 v+h
17 1337 2215 2210 94 148 148 v+h

18 1397 2275 2270 95 148 148 v+h

19 1458 2380 2375 101 148 148 v+h
20 1518 2440 2435 102 148 148 v+h

21 1579 2500 2500 103 148 148 v+h

22 1639 2560 2560 105 148 148 v+h

23 1700 2710 2710 114 148 148 v+h
24 1760 2770 2770 116 148 148 v+h

25 1821 2830 2830 117 148 148 v+h

26 1881 2890 2890 118 148 148 v+h
27 1942 2955 2950 120 148 148 v+h

28 2002 3120 3115 130 149 149 v

29 2063 3180 3175 131 149 149 v

30 2123 3240 3235 133 149 149 v
33
36
39
42
45

1)

Including check valve with threaded end and standard motor leads.

A

≈ mm

2)

v = vertical / h = horizontal.

1)

mAin ≈ kg

on request

D

in ≈ mm

max

d.o.l. Y-∆

3)

horizontale installation on request

Installation

3)

3)

3)

3)

3)

3)

3)

2)3)

41

60 Hz

page4

5

UPA 150C -- 30 / ...; number of stages 1 -- 13

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressure losses Hvin the
check valve are not considered in
the pump characteristic curves.

Legend ...
H

: Head losses in the check

v

valve

η

: Pump efficiency (not

p

considering check valve)

NPSH:Net positive suction head

required by the pump

Pump End G 3”

The information given below is
based on the model with check
valve and threaded end.

The changes in the main
dimensionsresultingfromdifferent
threaded or flanged ends are
specified in the table below.

UPA 150C

Overall

length (mm)
G21/2” 40
G3” 48
G4” 93
DN 50 77 165
DN 65 77 185
DN 80 77 200

Threaded end to DIN ISO 228, Part 1.
Flange end to DIN 2501, Part 1

G3’’

Lp

D

max

D

max

(mm)

see

L

A

42

60 Hz

page4

5

UPA 150C -- 30 / ...; number of stages 14 -- 23

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressure losses Hvin the
check valve are not considered in
the pump characteristic curves.

Legend ...
H

: Head losses in the check

v

valve

η

: Pump efficiency (not

p

considering check valve)

NPSH:Net positive suction head

required by the pump

Pump End G 3”

The information given below is
based on the model with check
valve and threaded end.

The changes in the main
dimensionsresultingfromdifferent
threaded or flanged ends are
specified in the table below.

UPA 150C

Overall

length (mm)
G21/2” 40
G3” 48
G4” 93
DN 50 77 165
DN 65 77 185
DN 80 77 200

Threaded end to DIN ISO 228, Part 1.
Flange end to DIN 2501, Part 1

G3’’

Lp

D

max

D

max

(mm)

see

L

A

43

60 Hz

UPA 150C

Technical Data

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3 µ) / 460 V.........................

-- Starting d.o.l. (D) or star-delta (Y -∆)......................................

Pump Motor

UPA 150C -- 30 / ...

Discharge

head

Q=0m

H

0

m

3

/h

P

kW

Rated

power

N

Max. temperature

of the fluid pumped

P

N

hp

v ≥ 0.5 m/s

1)

t

max

_C

Rated

current

I

N

A

Effi-

ciency

η

M

%

Power

factor

cos ϕ

-- --

1 + DN 100 - 1.5 15.6 1.8 30 4.1 74.0 0.80 4x1.5 -­2 + DN 100 - 3.0 31.0 3.4 30 7.4 79.0 0.76 4x1.5 --

3 + UMA 150D 5/21 49.0 5.0 43 11.4 75.0 0.77 4x2.5 3/4 x 2.5
4 + UMA 150D 5/21 64.0 6.5 39 13.6 75.5 0.83 4x2.5 3/4 x 2.5
5 + UMA 150D 7/21 80.0 8.0 38 16.4 77.0 0.82 4x2.5 3/4 x 2.5
6 + UMA 150D 7/21 95.0 9.0 33 18.0 76.5 0.84 4x2.5 3/4 x 2.5
7 + UMA 150D 9/21 111.0 11.0 33 21.0 78.0 0.84 4x2.5 3/4 x 2.5

8 + UMA 150D 13/21 129.0 12.5 39 24.5 82.0 0.79 4x2.5 3/4 x 2.5
9 + UMA 150D 13/21 144.0 14.0 37 26.5 82.0 0.81 4x2.5 3/4 x 2.5
10 + UMA 150D 13/21 159.0 15.5 34 29.0 81.5 0.83 4x2.5 3/4 x 2.5
11 + UMA 150D 15/21 176.0 17.0 36 31.0 82.5 0.84 4x4.0 3/4 x 2.5
12 + UMA 150D 15/21 190.0 18.0 33 33.0 82.0 0.84 4x4.0 3/4 x 2.5

13 + UMA 150D 18/21 208.0 20.0 34 37.0 83.0 0.82 4x4.0 3/4 x 2.5
14 + UMA 150D 18/21 223.0 22.0 32 40.5 82.5 0.83 4x4.0 3/4 x 2.5
15 + UMA 150D 22/21 241.0 24.0 37 44.0 84.5 0.81 4x4.0 3/4 x 2.5
16 + UMA 150D 22/21 256.0 25.0 36 45.5 84.5 0.82 4x4.0 3/4 x 2.5
17 + UMA 150D 22/21 271.0 26.0 34 47.0 84.5 0.83 4x4.0 3/4 x 2.5

18 + UMA 150D 26/21 289.0 28.0 38 51.0 85.5 0.82 4x6.0 3/4 x 4.0
19 + UMA 150D 26/21 304.0 30.0 37 54.0 85.5 0.83 4x6.0 3/4 x 4.0
20 + UMA 150D 26/21 319.0 31.0 36 55.0 85.5 0.84 4x6.0 3/4 x 4.0
21 + UMA 150D 30/21 338.0 33.0 38 60.0 86.0 0.81 4x6.0 3/4 x 4.0
22 + UMA 150D 30/21 353.0 34.0 37 62.0 86.0 0.82 4x6.0 3/4 x 4.0
23 + UMA 150D 30/21 368.0 36.0 36 64.0 85.5 0.83 4x6.0 3/4 x 4.0

1)

also see page 34

2)

3/4 = 1 x 3-core + 1 x 4-core, 90_ spacing.

Motor lead2),flat

Number x cross-section

of conductors (use under

water, 460 V and ≤ +30 _C)

d.o.l.

mm

2

Y-∆

mm

2

44

60 Hz

P

A

g

UPA 150C

Dimensions / Weights / Horizontal Installation

L

P

mm

UPA 150C -- 30 / ...

C1 (AISI 304) C2 (AISI 316)

1 389 715 715 20 139 -- v
2 485 910 910 25 139 -- v

3 613 1315 1310 60 146 148 v+h
4 709 1410 1410 61 146 148 v+h
5 805 1525 1525 65 146 148 v+h
6 901 1620 1620 67 146 148 v+h
7 997 1750 1745 71 146 148 v+h

8 1093 1925 1920 80 146 148 v+h

9 1189 2020 2020 81 146 148 v+h
10 1285 2115 2115 83 146 148 v+h
11 1381 2255 2255 88 147 148 v+h
12 1477 2355 2350 90 147 148 v+h

13 1573 2495 2490 96 147 148 v+h
14 1669 2590 2590 97 147 148 v+h
15 1765 2775 2775 107 147 148 v+h
16 1861 2870 2870 108 147 148 v+h
17 1957 2970 2965 110 147 148 v+h

18 2053 3170 3165 121 149 149 v
19 2149 3265 3265 122 149 149 v
20 2245 3360 3360 124 149 149 v
21 2341 3555 3555 134 149 149 v
22 2437 3655 3650 136 149 149 v
23 2533 3750 3745 138 149 149 v

1)

Including check valve with threaded end and standard motor leads.

L

A

≈ mm

2)

v = vertical / h = horizontal.

1)

m

A

≈ kg

D

≈ mm

max

Installation

2)

d.o.l. Y-∆

3)

3)

3)

3)

3)

3)

3)

3)

3)

horizontale installation on request

45

60 Hz

page4

7

UPA 150C -- 48 / ...; number of stages 1 -- 14

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressure losses Hvin the
check valve are not considered in
the pump characteristic curves.

Legend ...
H

: Head losses in the check

v

valve

η

: Pump efficiency (not

p

considering check valve)

NPSH:Net positive suction head

required by the pump

Pump End G 3”

The information given below is
based on the model with check
valve and threaded end.

The changes in the main
dimensionsresultingfromdifferent
threaded or flanged ends are
specified in the table below.

UPA 150C

Overall

length (mm)
G21/2” 40
G3” 48
G4” 93
DN 50 77 165
DN 65 77 185
DN 80 77 200

Threaded end to DIN ISO 228, Part 1.
Flange end to DIN 2501, Part 1

G3’’

Lp

D

max

D

max

(mm)

see

L

A

46

60 Hz

A

L

P

mAk

g

Installatio

n

UPA 150C

Technical Data

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3 µ) / 460 V.........................

-- Starting d.o.l. (D) or star-delta (Y -∆)......................................

Pump Motor

UPA 150C -- 48 / ...

Discharge

head

Q=0m

H

0

m

3

/h

P

kW

Rated
power

N

Max. temperature

of the fluid pumped

P

N

hp

v ≥ 0.5 m/s

1)

t

max

_C

Rated

current

I

N

A

Effi-

ciency

η

M

%

Power

factor

cos ϕ

-- --

1 + DN 100 - 3.0 19.2 3.4 30 7.4 79.0 0.76 4x1.5 -­2 + UMA 150D 5/21 40.0 6.0 41 12.9 75.5 0.81 4x2.5 3/4 x 2.5
3 + UMA 150D 7/21 59.0 8.5 36 17.2 77.0 0.83 4x2.5 3/4 x 2.5
4 + UMA 150D 9/21 79.0 11.0 33 21.0 78.0 0.84 4x2.5 3/4 x 2.5
5 + UMA 150D 13/21 100.0 14.0 37 26.5 82.0 0.81 4x2.5 3/4 x 2.5
6 + UMA 150D 15/21 119.0 16.5 36 30.5 82.5 0.83 4x4.0 3/4 x 2.5
7 + UMA 150D 18/21 140.0 20.0 35 37.0 83.0 0.82 4x4.0 3/4 x 2.5
8 + UMA 150D 18/21 158.0 22.0 31 40.5 82.5 0.83 4x4.0 3/4 x 2.5
9 + UMA 150D 22/21 179.0 25.0 36 45.5 84.5 0.82 4x4.0 3/4 x 2.5
10 + UMA 150D 26/21 200.0 28.0 38 51.0 85.5 0.82 4x6.0 3/4 x 4.0
11 + UMA 150D 26/21 218.0 31.0 36 55.0 85.5 0.84 4x6.0 3/4 x 4.0
12 + UMA 150D 30/21 240.0 34.0 37 62.0 86.0 0.82 4x6.0 3/4 x 4.0
13 + UMA 150D 30/21 258.0 36.0 35 64.0 85.5 0.83 4x6.0 3/4 x 4.0
14 + UMA 150D 37/22 279.0 40.0 48 72.0 85.0 0.82 3/4 x 4.0

1)

also see page 34

2)

3/4 = 1 x 3-core + 1 x 4-core, 90_ spacing.

3)

Parallel cable

Motor lead2),flat

Number x cross-section

of conductors (use under

water, 460 V and ≤ +30 _C)

d.o.l.

mm

2

3)

Y-∆

mm

3/4 x 4.0

2

Dimensions / Weights / Horizontal Installation

L

L

P

UPA 150C -- 48 / ...

mm

C1 (AISI 304) C2 (AISI 316)
1 406 830 830 26 139 -- v+h
2 551 1250 1250 61 143 146 v+h
3 664 1385 1385 65 143 146 v+h
4 777 1530 1525 71 143 146 v+h
5 890 1720 1720 80 143 146 v+h
6 1003 1880 1875 86 145 146 v+h
7 1116 2035 2035 92 145 146 v+h
8 1229 2150 2150 95 145 146 v+h
9 1342 2355 2350 105 145 146 v+h

10 1455 2570 2570 116 146 147 v+h
11 1568 2685 2680 119 146 147 v+h
12 1681 2895 2895 130 146 147 v+h
13 1794 3010 3010 132 146 147 v
14 1907 3205 3200 141 146 147 v

1)

Including check valve with threaded end and standard motor leads.

A

≈ mm

2)

v = vertical / h = horizontal.

1)

D

m

≈ kg

max

≈ mm

Installation

2)

d.o.l. Y-∆

3)

3)

3)

horizontale installation on request

47

60 Hz

page4

9

UPA 150C -- 60 / ...; number of stages 1 -- 11

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressure losses Hvin the
check valve are not considered in
the pump characteristic curves.

Legend ...
H

: Head losses in the check

v

valve

η

: Pump efficiency (not

p

considering check valve)

NPSH:Net positive suction head

required by the pump

Pump End G 3”

The information given below is
based on the model with check
valve and threaded end.

The changes in the main
dimensionsresultingfromdifferent
threaded or flanged ends are
specified in the table below.

UPA 150C

Overall

length (mm)
G21/2” 40
G3” 48
G4” 93
DN 50 77 165
DN 65 77 185
DN 80 77 200

Threaded end to DIN ISO 228, Part 1.
Flange end to DIN 2501, Part 1

G3’’

Lp

D

max

D

max

(mm)

see

L

A

48

60 Hz

P

A

g

UPA 150C

Technical Data

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3 µ) / 460 V.........................

-- Starting d.o.l. (D) or star-delta (Y -∆)......................................

Pump Motor

UPA 150C -- 60 / ...

Discharge

head

Q=0m

H

0

m

3

/h

P

kW

Rated
power

N

Max. temperature

of the fluid pumped

P

N

hp

v ≥ 0.5 m/s

1)

t

max

_C

Rated

current

I

N

A

Effi-

ciency

η

M

%

Power

factor

cos ϕ

-- --

1 + DN 100 - 3.0 19.4 3.4 30 7.4 79.0 0.76 4x1.5 -­2 + UMA 150D 5/21 40.0 6.6 37 13.8 75.5 0.83 4x2.5 3/4 x 2.5
3 + UMA 150D 9/21 60.0 10.0 36 19.8 78.5 0.83 4x2.5 3/4 x 2.5
4 + UMA 150D 13/21 81.0 13.5 38 26.0 82.0 0.81 4x2.5 3/4 x 2.5
5 + UMA 150D 15/21 101.0 16.5 36 30.5 82.5 0.83 4x4.0 3/4 x 2.5
6 + UMA 150D 18/21 121.0 20.0 34 37.0 83.0 0.82 4x4.0 3/4 x 2.5
7 + UMA 150D 22/21 142.0 24.0 37 44.0 84.5 0.81 4x4.0 3/4 x 2.5
8 + UMA 150D 22/21 161.0 26.4 34 47.5 84.5 0.83 4x4.0 3/4 x 2.5
9 + UMA 150D 26/21 182.0 30.0 37 54.0 85.5 0.83 4x6.0 3/4 x 4.0
10 + UMA 150D 30/21 203.0 34.0 37 62.0 86.0 0.82 4x6.0 3/4 x 4.0
11 + UMA 150D 37/22 223.0 38.0 50 69.0 85.5 0.81 3/4 x 4.0

1)

also see page 34

2)

3/4 = 1 x 3-core + 1 x 4-core, 90_ spacing.

3)

Parallel cable

Motor lead2),flat

Number x cross-section

of conductors (use under

water, 460 V and ≤ +30 _C)

d.o.l.

mm

2

3)

Y-∆

mm

3/4 x 4.0

2

Dimensions / Weights / Horizontal Installation

L

P

mm

UPA 150C -- 60 / ...

C1 (AISI 304) C2 (AISI 316)

1 406 830 830 25 139 -- v+h
2 551 1250 1250 61 143 146 v+h
3 664 1415 1415 68 143 146 v+h
4 777 1610 1605 78 143 146 v+h
5 890 1765 1765 84 145 146 v+h
6 1003 1925 1920 90 145 146 v+h

7 1116 2125 2125 100 145 146 v+h
8 1229 2240 2240 103 145 146 v+h

9 1342 2460 2455 114 146 147 v+h
10 1455 2670 2670 125 146 147 v+h
11 1568 2865 2860 134 145 147 v

1)

Including check valve with threaded end and standard motor leads.

L

A

≈ mm

2)

v = vertical / h = horizontal.

1)

m

A

≈ kg

D

≈ mm

max

Installation

2)

d.o.l. Y-∆

3)

3)

horizontale installation on request

49

60 Hz

UPA 150C

50

60 Hz

Applications

Handling clean or slightly contaminated water ...

-- in general water supply systems,

-- in irrigation and spray irrigation systems,

-- in pressure boosting systems,

-- in emergency water supply systems,

-- in installations for lowering and maintaining ground water
levels.

Also used in ...

-- mining,

-- sprinkler installations,

-- fountains etc

Permissible sand content in the fluid handled: 50 g/m
Also suitable for aggressive seawater if supplied in material

variant C3 (duplex).

3

.

Operating Data

Capacity Q up to 400 m3/h (111 l/s...................

or up to 1600 US GPM)

Head H up to 434 m......................

Temperature of fluid handled t up to +50 °C..

Speed n ≈ 3500 rpm.....................

UPA 200, 200B, 250C

Submersible Borehole Pumps

for Well Diameters

of 200 mm (8 inches) and Above

and of 250 mm (10 inches) and Above

Design

Single or multistage, single-entry centrifugal pumps in
ring-section design. Mixed flow hydraulic systems with
impellers that can be turned down.Stage casings connected by
means ofstuds. Suction casingfitted between pumpand motor.
Suction casing equipped with strainer to protect the pump from
coarse particles in the fluid.

Pumps with non-return valve or connection branch on option.
Both models available with either threaded or flanged end.
Particularly suitable for vertical installation in narrow deep
wells.

Designation (Example)

UPA

200 B -- 8 0 B /5d

Type series
Minimum well diameter (mm

(for ex.: 200 mm = 8 inches)

Design status

Q

Capacity
Impeller material

without code letter: execution G
with code B: execution B

Number of stages
Reduced impeller diameters

1)

Applies to UPA 200B only.

for 50 Hz (m

opt

1)

)

3

/h)

Certification

Quality management certified to ISO 9001

Product Features

-- Very sturdy design

-- Suitable for installation in narrow deep wells

-- High efficiency

-- Motor designed for maximum pump output

-- Low noise level

-- For vertical or horizontal installation

-- Non-return valve protected against blocking

-- Pre-filled motor; no risk of contamination of the handled
water

51

60 Hz

UPA 200, 200B, 250C

Selection Chart (Ranges on Offer) n ≈ 3500 rpm

UPA 250C -- 120

UPA 250C -- 250

UPA 200B -- 80

UPA 200 -- 11

UPA 250C -- 150

UPA 200 -- 14

UPA 200-11

UPA 200-14

UPA 200B-80

UPA 200B -- 130

UPA 250C-120

UPA 250C-250

UPA 200B-130

UPA 250C-150

Note: The diagram shows the ∆QArange on offer. The pumps can be offered for any duty point within this range. The operating

ranges ∆Q

of the individual pump sizes are given in the characteristic curves for different stage numbers on the following pages.

B

Selection charts or performance curves for UPA in material variant C3 (duplex) on request only.

52

60 Hz

UPA 200, 200B, 250C

UPA 200

Material Variants

Component Execution G Execution B
Casing Cast iron

(JL1030)

Impeller Glass fibre reinforced NORYL

Diffuser Glass fibre reinforced NORYL

Shaft Cr steel

(1.4021)
Wear ring CrNiMo steel (1.4401)
Screws, bolts

and nuts

1)

DIN mat. code: GG-20

1)

(PPO)

(PPO)

CrNiMo steel

(A4-70)

2)

DIN mat. code: CuSn10

Bronze

(CC480K--GS)

CrNiMo steel

(1.4462)

2)

Bearings / Lubrication

Plain bearing in the end stage, lubricated by the fluid handled.
Axial thrust is balanced by a thrust bearing in the motor.

Threaded End

Flanged End

Direction of Rotation of the Pump

Clockwise rotation (when looking at the drive shaft end).

Pump End (Discharge Nozzle)

UPA 200 - 11 + 14: internal thread G 3’’ (DN 80). Flanged end
with adapter also available (see “Accessories”).

Variants Available on Request

-- Pumps with flanged end

-- Pumps with connection branch with either threaded
or flanged end

3410:8/3

Example: UPA 200 - 14/3 with UMA 150D .. / 2.

Part No
106/108 Suction casing / Stage casing
143 Suction strainer
171 Diffuser
211 Pump shaft
232 Clockwise impeller
503 Impeller wear ring
529/545 Bearing sleeve / Bearing bush
751 Valve body
849 Sleeve coupling
917 Tie bolt

Description

53

60 Hz

g

UPA 200, 200B, 250C

UPA 200B, 250C

Material Variants

UPA pump

Casing

Im-

200B Glass fibre

peller

250C Bronze (CC480K-GS)

Shaft

Wear ring

Screws, bolts
and nuts

UMA motor

Shaft

Hou-

4)

150D

200D
250D
300D

150D

sing

200D
250D

300D

Stator

150D

case

200D
250D

300D

Screws

150D

bolts
and
nuts

1)

DIN mat. code: GG-25

2)

DIN mat. code: CuSn10

200D

4)

250D

300D

G

(Standard)

Cast iron

(JL1040)

reinforced

1)

NORYL

(PPO)

Cr steel

(1.4021)

high-performance plastics CrNiMo steel

CrNiMo steel

(A4--70)

G

(Standard)

CrNi steel

(1.4305)

CrNiMo steel

(1.4462)

Cast iron

Cast iron

Cast iron

(1.4301)

(1.4301)

(1.4301)

(1.4301)

CrNiMo steel

CrNiMo steel

3)

3)

1)

(A4--70)

(A4--70)

(JL1030)

(JL1030)

(JL1040)

CrNi steel

CrNiMo steel

CrNiMo steel

CrNi steel

B

(Special)

Bronze

(CC480K-GS)

Bronze

(CC480K-GS)

2)

CrNiMo steel

C2

(Special)

CrNiMo steel

CrNiMo steel

CrNiMo steel

(1.4409)

CrNiMo steel

(1.4408)

CrNiMo steel

CrNiMo steel

(1.4571)

CrNiMo steel

(1.4571)

CrNiMo steel

CrNiMo steel

(A4--70)

3)

DIN mat. code GG-20

4)

Wetted by fluid handled

5)

for size 80B and 130B

2)

5)

(1.4462)

(1.4462)

(1.4462)

(1.4517)

(1.4462)

C3

(Duplex)

CrNiMo steel

(1.4517)

CrNiMo steel

(1.4517)

(1.4538)

CrNiMo steel

(1.4462)

C3

(Duplex)

CrNiMo steel

(1.4539)

CrNiMo steel

(1.4539)

CrNiMo steel

(1.4539)

CrNiMo steel

(1.4539)

CrNiMo steel

(1.4539)

CrNiMo steel

(1.4539)

CrNiMo steel

(1.4462)

Bearings / Lubrication

Radial plain bearings; lubricated by the liquid handled or by the
motor filling water. Depending on the number of stages 1
intermediate bearings is fitted on the pump unit.

The axial thrust is balanced by a thrust bearing with
self-adjusting tilting pads in the lower part of the motor.

Direction of Rotation of the Pump

Clockwise rotation (when looking at the drive shaft end).
54

Pump End (Discharge Nozzle)

At choice with female thread G 5’’ and G 6’’ or flange DN 125
and DN 150 dependent on pump size.

Coating (Standard)

Quality 2-component high-build coating...........

(epoxy resin base), approved for drinking

water contact
Coating structure Primer and top coat..
Film thickness 100 to 150

µm....

Colour ultramarine blue (RAL 5002)...........

Type of Installation

In general, the pumps are installed vertically. Some models
may also be installed horizontally depending on the number of
stages and motor size.

Drive

Motor type water-filled submersible........

squirrel-cage motor, 2 poles
Type of enclosure IP 68.

Frequency 60 Hz........

Type of current three-phase (3~)....

Rated voltage U 440 V ... 460 V...
Rated power P
Frequency of starts 15/h
Minimum delay

before restarting 1 min

up to 225 kW ( 301.7 hp)...

N

..

1)

and 10/h

1)

and3min

2)

2)

Motor design is in compliance with VDE regulations.

1)

Motor UMA 150D

2)

Motors UMA 200D and 250D

Connection to Power Supply

The motors are normally equipped ex works as follows with
short flat cables ...

-- UMA 150D:

1 x 4 m with 4 conductors (3 phases + 1 earth conductor)
for direct starting or
1 x 4 m with 3 conductors and 1 x 4 m with 4 conductors (3
phases + 1 earth conductor) for direct and star-delta
starting,

-- UMA 200D + UMA 250D:

1 x 6 m with 3 conductors and 1 x 6 m with 4 conductors (3
phases + 1 earth conductor) for direct and star-delta

starting.
All motor sizes are equipped with internal earthing.
Connection of extension cable on short cable by means of a

waterproof cable connector (see ”accessories” )
Short cable and extension cable in food quality.
Note: The cross-section of short cable is only designed for

underwater use. For laying partially or completely in air it is
necessary to check the cross-section of this cable.

60 Hz

Starting

Direct on line (without or with starting transformer as well as
with smooth running device) or star-delta starting.

Variable Speed

The submersible motor pumps can also be adjusted with a
speed adjustment to different duty points.

Application Temperatures

The submersible borehole pumpsare, as a standard, suitable for
use in water with temperatures of up to t = +30 °C. An
indispensable requirement for this is aflow velocity of v = 0.5 m/s
past the motor. This requirement is met, for example, when the
pump is installed in a deep well above the well screen / filter, etc.

With certain restrictions, some motor sizes may also be used
in water with temperatures of up to t = +50 °C or for operation
without an adequate cooling flow of water past the motor, i.e.
v = 0 m/s (for example, when the unit is installed in a deep well
below the screen / filter area or in a pump sump, etc.).

UPA 200, 200B, 250C

Variants Available on Request

-- UPA 200B pumps with impellers out of Bronze

-- other materials

-- other or higher voltages until 6600 V

-- other frequencies

-- more wear resistant design

-- pump with connection nozzle (instead of non-return valve)

-- with cooling, suction or pressure shroud

55

Design Features

60 Hz

UPA 200, 200B, 250C

Check valve with anti-blockage
valve disc

-- No jamming or tilting.

-- Spring-loaded design makes for mini­mum valve closing times and prevents
waterhammer.

-- High operating reliability.

Robust wear rings

-- Replaceable wear rings made of
corrosion- and wear-resistant metal.

-- Protection against wear in the
clearance; easy servicing.

Integrated sand separator

-- Tried and tested KSB patent.

-- Added protection from abrasive wear
for shafts and bearing areas.

-- Long service life and high operating
reliability.

All wetted plastic components are
approved for contact drinking
water (BAM

-- Coating, electric cables, seal
elements, gaskets, etc. are
absolutely fit for use in drinking
water applications.

1) German Federal Institute for Materials
Research

Enclosed pump bearing

-- No-maintenance design, high wear
resistance.

-- For trouble-free long-term
operation.

Energy-efficient hydraulic systems

-- High efficiency and low energy
costs.

1)

)

Wear-resistant mechanical seal

-- Long service life and high
operating reliability.

Counter thrust bearing

-- Reliable balancing of negative axial
thrust.

-- Impellers do not rub on the stage
casings.

Tried and tested thrust bearing

-- Water-lubricated self-aligning
tilting-pad journal bearing.

-- No-maintenance design suitable for
maximum load-carrying capacity
under continuous operation
conditions.

-- New materials combination (stainless
steel / carbon) for high safety factor.

The KSB motor

-- VDE-compliant, i.e., high level of
electrical safety.

-- Designed for max. pump power
to protect unit from overloads.

Dynamically balanced rotor

-- Ensures smooth running.

Reliable pressure balancing
system

-- Optimum rubber expansion
diaphragm design.

-- Enables installation at very low
depths.

H04004669

56

60 Hz

UPA 200, 200B, 250C

57

60 Hz UPA 200

UPA 200 – 11 for Well Diameters of 200 mm (8 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

/h

Q=0m

H

0

UPA 200 -- 11/ ... + ..

1e + UMA 150D 5/21
1d + UMA 150D 5/21
1 + UMA 150D 5/21

2e + UMA 150D 7/21
2c + UMA 150D 7/21
2 + UMA 150D 9/21

3d + UMA 150D 13/21
3 + UMA 150D 13/21

4c + UMA 150D 15/21
4 + UMA 150D 18/21

5b + UMA 150D 18/21
5 + UMA 150D 22/21

6b + UMA 150D 22/21
6 + UMA 150D 26/21

m

26.5

29.2

32.5

51.9

58.6

63.9

86.6

96.0

117.7

128.3

149.1

160.4

179.3

192.4

7 + UMA 150D 30/21 224.9 36.0 48.3 36 64.0 85.6 0.83 4x6.0 3/4 x 4.0

8 + UMA 150D 37/22 256.9 42.0 56.3 47 76.0 85.1 0.83 3/4 x 4.0 II

9 + UMA 150D 37/22 287.0 44.0 59.0 43 78.0 84.9 0.84 3/4 x 4.0 II

10 + UMA 200D 45/21 322.4 52.0 69.7 31 89.0 85.7 0.87 4 x 10.0 3/4 x 6.0

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

P

kW

4.0

4.5

5.5

7.5

9.0

10.5

12.0

15.0

17.0

21.0

22.0

26.0

26.0

31.0

Rated
power

N

Max. temperature of

P

N

hp

5.4

6.0

7.4

10.1

12.1

14.1

16.1

20.1

22.8

28.2

29.5

34.9

34.9

41.6

the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

45
44
42

40
35
35

40
35

36
34

32
35

34
36

Rated

current

I

N

A

10.1

10.7

12.1

15.6

18.0

20.5

23.5

28.5

31.0

39.0

40.5

47.0

47.0

55.0

Effi-

ciency

η

M

%

73.5

74.6

75.5

77.3

76.7

78.4

82.0

81.6

82.5

82.9

82.7

84.5

84.5

85.4

Power

factor

cos φ

-- --

0.71

0.74

0.79

0.81

0.84

0.84

0.78

0.82

0.84

0.82

0.83

0.83

0.83

0.84

Number x cross-section of

conductors (use under water,

460 V and ≤+30 _C)

D.o.l.

mm

4x2.5
4x2.5
4x2.5

4x2.5
4x2.5
4x2.5

4x2.5
4x2.5

4x4.0
4x4.0

4x4.0
4x4.0

4x4.0
4x6.0

2

3)

3)

Y-∆

mm

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 4.0

3/4 x 4.0

3/4 x 4.0

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

70
70
71

77
77
80

90
90

98

102

106
114

118
128

1)

D

192
192
192

192
192
192

192
192

193
193

193
193

193
194

max

in ¶ mm

195
195
195

195
195
195

195
195

195
195

195
195

195
196

Installation

v+h
v+h
v+h

v+h
v+h
v+h

v+h
v+h

v+h
v+h

v+h
v+h

v+h
v+h

Dimensions / Weights / Horizontal Installation

L

UPA 200 - 11/ ..

1e
1d

1

2e
2c

2

3d

3

4c

4

5b

5

6b

6

P

mm

515
515
515

580
580
580

645
645

710
710

775
775

840
840

LA¶ mm mAin ¶ kg

Standard Special Standard Special D.o.l. Y-∆

1214
1214
1214

1299
1299
1329

1474
1474

1584
1629

1694
1784

1849
1954

1214
1214
1214

1299
1299
1329

1474
1474

1584
1629

1694
1784

1849
1954

67
67
68

73
73
76

86
86

93
97

101
109

112
122

7 905 2119 2119 134 140 194 196 v+h 1292

8 970 2264 2264 146 153 196 196 v

9 1035 2329 2329 148 155 196 196 v

10 111 0 2341 2341 207 215 196 199 v+h 1506

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

2)

A

¶ mm

645
645
645

720
720
735

840
840

927
950

1015
1060

1125
1177

3)

3)

-- --

-- --

58

UPA 200 - 11 / ..

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressurelosses Hvin thecheck valve are
not considered in the pump characteristic
curves.

For more details and a selection example
refer to page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

Pump End G 3’’ / DN 80

The information is based on the model “with
check valve / connection branch and
threaded end”.

The changes in the main dimensions of the
“flanged end” model are specified in the table
below.

Check valve / connection branch with:

Threaded

end G 3’’

Length

mm

200 200 (PN 10/16)

200 (PN 25/40)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

Length

mm

Flanged end

DN 80

Outside dia.

mm
200

200

60 Hz UPA 200

UPA 200 -- 11 /..

(Tolerances to
ISO 9906 Class 2)

Operating range:
Q

=10m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”d”

Maximum impeller dia.

59

60 Hz UPA 200

UPA 200 --14 for Well Diameters of 200 mm (8 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

/h

Q=0m

H

0

UPA 200 -- 14/ ... + ...

1e + UMA 150D 5/21
1d + UMA 150D 5/21
1 + UMA 150D 7/21

2e + UMA 150D 9/21
2d + UMA 150D 9/21
2 + UMA 150D 13/21

3d + UMA 150D 15/21
3 + UMA 150D 18/21

4c + UMA 150D 22/21
4 + UMA 150D 26/21

5c + UMA 150D 26/21
5 + UMA 150D 30/21

6c + UMA 150D 37/22
6 + UMA 150D 37/22

7c + UMA 150D 37/22
7 + UMA 200D 45/21

m

25.1

30.2

35.5

50.4

60.4

72.1

92.1

108.7

131.2

145.9

163.6

182.1

197.7

217.7

228.7

256.0

8 + UMA 200D 55/21 294.1 60.0 80.5 32 101.0 86.8 0.86 4 x 16.0 3/4 x 6.0

9 + UMA 200D 65/21 332.2 68.0 91.2 34 115.0 87.6 0.85 3/4 x 10 II

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

P

kW

5.0

6.0

7.5

10.0

11. 2

14.5

17.5

22.0

25.0

29.0

31.2

36.0

38.0

44.0

44.0

52.0

Rated
power

N

Max. temperature of

P

N

hp

6.7

8.0

10.1

13.4

15.0

19.4

23.5

29.5

33.5

38.9

41.8

48.3

51.0

59.0

59.0

69.7

the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

43
41
40

36
31
36

34
32

35
37

35
35

49
45

44
30

Rated

current

I

N

A

11. 4

12.9

15.6

19.8

21.5

27.5

32.0

40.5

45.5

52.0

55.0

64.0

69.0

78.0

78.0

89.0

Effi-

ciency

η

M

%

75.2

75.5

77.3

78.5

78.1

81.7

82.4

82.7

84.6

85.6

85.4

85.6

85.4

84.9

84.9

85.7

Power

factor

cos φ

-- --

0.77

0.81

0.81

0.83

0.85

0.82

0.84

0.83

0.82

0.83

0.84

0.83

0.81

0.84

0.84

0.87

Number x cross-section of

conductors (use under water,

460 V and ≤+30 _C)

D.o.l.

2

mm

4x2.5
4x2.5
4x2.5

4x2.5
4x2.5
4x2.5

4x4.0
4x4.0

4x4.0
4x6.0

4x6.0
4x6.0

3/4 x 4.0 II
3/4 x 4.0 II

3/4 x 4.0 II

4x10

3)

3)

3)

3)

Y-∆

mm

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 4.0

3/4 x 4.0
3/4 x 4.0

3/4 x 4.0
3/4 x 4.0

3/4 x 4.0
3/4 x 6.0

3/4 x 10.0

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

Dimensions / Weights / Horizontal Installation

UPA 200 -- 14/ ..

1e
1d

1

2e
2d

2

3d

3

4c

4

5c

5

6c

6

7c

7

L

mm

530
530
530

610
610
610

690
690

770
770

850
850

930
930

1020
1020

P

LA¶ mm mAin ¶ kg

Standard Special Standard Special D.o.l. Y-∆

1229
1229
1249

1359
1359
1439

1564
1609

1779
1884

1964
2064

2224
2224

2314
2251

1229
1229
1249

1359
1359
1439

1564
1609

1779
1884

1964
2064

2224
2224

2314
2251

68
68
70

77
77
84

92
96

108
117

125
134

144
144

148
204

1)

71
71
73

81
81
88

96

100

113
123

130
139

150
150

154
210

D

192
192
192

192
192
192

193
193

193
194

194
194

196
196

196
196

max

in ¶ mm

195
195
195

195
195
195

195
195

195
196

196
196

196
196

196
199

Installation

8 1100 2441 2441 228 235 199 199 v+h 1551

9 1180 2651 2651 252 259 199 199 v+h 1696

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

v+h
v+h
v+h

v+h
v+h
v+h

v+h
v+h

v+h
v+h

v+h
v+h

3)

v

3)

v

3)

v

v+h

2)

A

¶ mm

660
660
670

765
765
805

907
930

1055
1107

1187
1237

-- --

-- --

-- --

1416

60

UPA 200 - 14 / ..

The characteristic curves shown are for
preliminary selection only. Exact selection
data will be provided in our quotation.

Selection

The pressurelosses Hvin thecheck valve are
not considered in the pump characteristic
curves.

For more details and a selection example
refer to page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

Pump End G 3’’ / DN 80

The information is based on the model “with
check valve / connection branch and
threaded end.

The changes in the main dimensions of the
“flanged end” model are specified in the table
below.

60 Hz UPA 200

UPA 200 -- 14 /..

(Tolerances to
ISO 9906 Class 2)

Check valve / connection branch with

Threaded

end G 3’’

Length

mm

200 200 (PN 10/16)

Flanged end

DN 80

Length

mm

200 (PN 25/40)

Outside dia.

mm
200

200

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

Operating range:
Q

=12m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”d”

Maximum impeller dia.

61

60 Hz UPA 200B, 250C

UPA 200B -- 80 for Well Diameters of 200 mm (8 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

/h

Q=0m

H

0

UPA 200B -- 80/.. + ...

1g + UMA 150D 7/21
1f + UMA 150D 9/21
1d + UMA 150D 13/21
1 + UMA 150D 13/21

2g + UMA 150D 15/21
2f + UMA 150D 18/21
2d + UMA 150D 22/21
2 + UMA 150D 26/21

3f + UMA 150D 26/21
3e + UMA 150D 26/21
3c + UMA 150D 30/21
3 + UMA 150D 37/22

4e + UMA 150D 37/22
4c + UMA 200D 45/21
4 + UMA 200D 55/21

5d + UMA 200D 55/21
5 + UMA 200D 65/21

6c + UMA 200D 65/21
6 + UMA 200D 75/21

7c + UMA 200D 90/21
7 + UMA 200D 90/21

8c + UMA 200D 90/21
8 + UMA 250D 110/21

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

m

29.1

34.1

36.8

39.1

55.7

64.0

69.2

76.2

97.3

101.6

107.0

113.4

135.8

143.6

152.9

177.1

191.0

215.9

228.5

253.8

267.4

288.4

309.4

P

N

kW

9.0

10.5

12.5

14.0

17.0

21.0

25.0

28.0

28.0

31.0

36.0

40.0

42.0

50.0

54.0

58.0

68.0

74.0

80.0

90.0

95.0

100.0

110.0

Rated

power

P

hp

12.1

14.1

16.8

18.8

22.8

28.2

33.5

37.5

37.5

41.6

48.3

53.6

56.3

67.1

72.4

77.8

91.2

99.2

107.3

120.7

127.4

134.1

147.5

N

Max. temperature

of the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C
33

34
39
37

35
34
36
38

38
36
35
48

46
32
35

33
34

31
31

34
32

30
33

Rated

current

I

N

A

18.0

20.5

24.5

26.5

31.0

39.0

45.5

51.0

51.0

55.0

64.0

72.0

76.0

86.0

93.0

99.0

115.0

124.0

136.0

156.0

162.0

169.0

188.0

Effi-

ciency

η

M

%

76.7

78.4

82.0

81.8

82.5

82.9

84.6

85.7

85.7

85.4

85.6

85.2

85.1

85.7

86.7

86.8

87.6

87.6

87.5

88.2

88.2

88.2

88.7

Power

factor

cos φ

-- --

0.84

0.84

0.79

0.81

0.84

0.82

0.82

0.82

0.82

0.84

0.83

0.82

0.83

0.86

0.85

0.86

0.85

0.86

0.85

0.83

0.84

0.85

0.83

Number x cross-section of

conductors (use under water,

460 V and ≤ 30 _C)

D.o.l.

2

mm

4x2.5
4x2.5
4x2.5
4x2.5

4x4.0
4x4.0
4x4.0
4x6.0

4x6.0
4x6.0
4x6.0

3/4 x 4.0 II
3/4 x 4.0 II

4 x 10.0
4 x 16.0

4 x 16.0

3/4 x 10.0 II
3/4 x 10.0 II

3/4 x 10.0 II
3/4 x 16.0 II

3/4 x 16.0 II
3/4 x 16.0 II

3/4 x 16.0 II

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 4.0

3/4 x 4.0
3/4 x 4.0
3/4 x 4.0

3)

3/4 x 4.0

3)

3/4 x 4.0
3/4 x 6.0
3/4 x 6.0

3/4 x 6.0

3)

3/4 x 10.0

3)

3/4 x 10.0

3)

3/4 x 10.0

3)

3/4 x 16.0

3)

3/4 x 16.0

3)

3/4 x 16.0

3)

3/4 x 25.0

Y-∆

mm

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

Dimensions / Weights / Horizontal Installation

L

P

UPA 200B -- 80/..

1g

1f

1d

1

2g

2f

2d

2

3f
3e
3c

3

4e
4c

4

5d

5

6c

6

7c

7

8c

8

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

mm

582
582
582
582

714
714
714
714

846
846
846
846

978
978
978

1110
1110

1242
1242

1374
1374

1506
1506

LA¶ mm mAin ¶ kg

Standard Special Standard Special D.o.l. Y-∆

1301
1331
1411
1411

1588
1633
1723
1828

1960
1960
2060
2140

2272
2209
2319

2451
2581

2713
2803

3115
3115

3247
3035

1301
1331
1411
1411

1588
1633
1723
1828

1960
1960
2060
2140

2272
2209
2319

2451
2581

2713
2803

3115
3115

3247
3035

89
92
99
99

113
117
125
134

145
146
155
162

172
225
245

256
279

289
305

348
348

358
428

1)

95

98
105
105

122
126
134
143

155
156
165
172

184
237
257

269
292

304
320

364
364

446
446

D

193
193
193
193

194
194
194
195

195
195
195
198

198
201
205

205
201

201
205

211
211

211
232

max

in ¶ mm

196
196
196
196

196
196
196
198

198
198
198
198

198
201
201

201
205

205
205

211
211

211
235

Installation

v+h
v+h
v+h
v+h

v+h
v+h
v+h
v+h

v+h
v+h
v+h

3)

v

3)

v
v+h
v+h

v+h
v+h

v+h
v+h

3) 4)

v

3) 4)

v

3) 4)

v

4)

v

2)

A

¶ mm

632
647
687
687

841
864
909
961

1093
1093

1143

--

-­1284
1339

1471
1536

1668
1713

--

--

--

--

62

UPA 200B -- 80 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The characteristic curves shown apply to the
standard impeller material, i.e. Noryl.

The performance data for the full impeller diameter
and impeller diameter “b” for the given number of
stages will only be achieved when the impellers are
made of Noryl (PPO).

For the special impeller material (bronze), please
select the next higher number of stages.

In this case, please refer to the characteristic curves
individually prepared for the quotation.

The pressure losses H
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...

: Head losses in the check valve

H

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

in the check valve are not

v

60 Hz UPA 200B, 250C

UPA 200B -- 80 /..

(Tolerances to
ISO 9906 Class 2)

Pump End G 5’’ / DN 125

The information is based on the model “with check
valve / connection branch and threaded end”.

The changes in the main dimensions of the “flanged
end” model are specified in the table below.

Check valve / connection branch with

Threaded

end G 5’’

Length

mm

200 150 (PN 10/16)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

Flanged end

DN 125

Length

mm

150 (PN 25/40)

Outside dia.

mm
250

270

Operating range:
Q

=18m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”d”

optimaler Laufrad-∅ ”f”

Maximum impeller dia.

maximaler Laufrad-∅

63

60 Hz UPA 200B, 250C

UPA 200B -- 130 for Well Diameters of 200 mm (8 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

Q=0m

/h

H

0

UPA 200B -- 130/.. + ...

1g + UMA 150D 7/21
1e + UMA 150D 9/21
1c + UMA 150D 13/21
1 + UMA 150D 13/21

2g + UMA 150D 15/21
2e + UMA 150D 18/21
2d + UMA 150D 22/21
2c + UMA 150D 22/21
2 + UMA 150D 26/21

3e + UMA 150D 30/21
3d + UMA 150D 30/21
3c + UMA 150D 37/22
3 + UMA 150D 37/22

4d + UMA 200D 45/21
4c + UMA 200D 45/21
4b + UMA 200D 55/21
4 + UMA 200D 55/21

5c + UMA 200D 65/21
5b + UMA 200D 65/21
5 + UMA 200D 65/21

6c + UMA 200D 75/21
6b + UMA 200D 90/21
6 + UMA 200D 90/21

7c + UMA 200D 90/21
7b + UMA 200D 90/21
7 + UMA 250D 110/21

m

24.6

28.8

33.2

35.6

48.4

56.8

61.4

64.6

70.1

85.3

91.1

96.6

103.8

122.2

128.8

135.3

140.1

162.7

169.1

175.1

194.7

204.0

211.5

227.8

236.6

249.5

8b + UMA 250D 110/21 273.8 115.0 154.2 32 195.0 88.7 0.84 3/4 x 16 II

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

P

N

kW

9.0

11. 2

13.5

15.5

18.0

22.0

25.0

26.0

30.0

33.0

36.0

40.0

44.0

48.0

52.0

56.0

60.0

66.0

68.0

74.0

78.0

85.0

90.0

95.0

95.0

105.0

Rated

power

P

hp

12.1

15.0

18.1

20.8

24.1

29.5

33.5

34.9

40.2

44.3

48.3

53.6

59.0

64.4

69.7

75.1

80.5

88.5

91.2

99.2

104.6

114.0

120.7

127.4

127.4

140.8

Max. temperature of the

fluid handled

v ≥ 0.5 m/s

N

t

max

_C
33

32
38
34

34
31
36
34
37

38
36
49
45

33
30
34
33

35
33
31

31
35
33

32
31
33

Rated

current

Effi-

ciency

Power

factor

Number x cross-section of

conductors (use under water,

460 V and ≤+30 _C)

1)

I

N

A

18.0

21.5

26.0

29.0

33.0

40.5

45.5

47.0

54.0

60.0

64.0

72.0

78.0

83.0

89.0

96.0

101.0

112.0

115.0

124.0

134.0

149.0

156.0

162.0

162.0

181.0

η

%

76.7

78.1

81.9

81.4

82.2

82.7

84.6

84.5

85.5

85.8

85.6

85.2

84.9

85.7

85.7

86.8

86.8

87.5

87.6

87.6

87.5

88.1

88.2

88.2

88.2

88.6

cos φ

M

-- --

0.84

0.85

0.81

0.83

0.84

0.83

0.82

0.83

0.83

0.81

0.83

0.82

0.84

0.86

0.87

0.85

0.86

0.85

0.85

0.86

0.84

0.82

0.83

0.84

0.84

0.83

D.o.l.

2

mm

4x2.5
4x2.5
4x2.5
4x2.5

4x4.0
4x4.0
4x4.0
4x4.0
4x6.0

4x6.0

4x6.0
3/4 x 4.0 II
3/4 x 4.0 II

4x10
4x10
4x16
4x16

3/4 x 10 II
3/4 x 10 II
3/4 x 10 II

3/4 x 10 II
3/4 x 16 II
3/4 x 16 II

3/4 x 16 II
3/4 x 16 II
3/4 x 16 II

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 2.5

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 4.0

3/4 x 4.0
3/4 x 4.0

3)

3/4 x 4.0

3)

3/4 x 4.0
3/4 x 6.0

3/4 x 6.0
3/4 x 6.0
3/4 x 6.0

3)

3/4 x 10

3)

3/4 x 10

3)

3/4 x 10

3)

3/4 x 10

3)

3/4 x 16

3)

3/4 x 16

3)

3/4 x 16

3)

3/4 x 16

3)

3/4 x 25

3)

3/4 x 25

Y-∆

mm

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

99

99
106
106

122
126
134
135
144

165
165
172
172

237
237
257
257

292
292
292

320
352
352

364
364
434

1)

max

193
193
193
193

194
194
194
194
195

195
195
198
198

201
201
205
205

201
201
201

205
211
211

211
211
232

Dimensions / Weights / Horizontal Installation

L

UPA 200B -- 130/..

1g
1e

1c

1

2g
2e
2d

2c

2

3e
3d

3c

3

4d

4c

4b

4

5c

5b

5

6c

6b

6

7c

7b

7

P

mm

545
595
595
595

740
740
740
740
740

885
885
885
885

1030
1030
1030
1030

1175
1175
1175

1320
1320
1320

1465
1465
1465

LA¶ mm mAin ¶ kg D

Standard Special Standard Special D.o.l. Y- ∆

1264
1344
1424
1424

1614
1659
1749
1749
1854

2099
2099
2179
2179

2261
2261
2371
2371

2646
2646
2646

2881
3061
3061

3206
3206
2994

1264
1344
1424
1424

1614
1659
1749
1749
1854

2099
2099
2179
2179

2261
2261
2371
2371

2646
2646
2646

2881
3061
3061

3206
3206
2994

89
92
99
99

113
117
125
125
135

155
155
162
162

225
225
245
245

279
279
279

305
337
337

348
348
418

8b 1610 3139 3139 428 446 232 235 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

in ¶ mm

196
196
196
196

196
196
196
196
198

198
198
198
198

201
201
201
201

205
205
205

205
211
211

211
211
235

Installation

v+h
v+h
v+h
v+h

v+h
v+h
v+h
v+h
v+h

v+h
v+h

3)

v

3)

v

v+h
v+h
v+h
v+h

v+h
v+h
v+h

v+h

3) 4)

v

3) 4)

v

3) 4)

v

3) 4)

v

v+h

4)

2)

A

¶ mm

585
650
690
690

857
880
925
925
977

1172
1172

--

--

1326
1326
1381
1381

1591
1591
1591

1781

--

--

--

--

1910

-- --

64

UPA 200B -- 130 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The characteristic curves shown apply to the
standard impeller material, i.e. Noryl.

The performance data for the full impeller diameter
for the given number of stages will only be achieved
when the impellers are made of Noryl (PPO).

For the special impeller material (bronze), please
select the next higher number of stages.

In this case, please refer to the characteristic
curves individually prepared for the quotation.

The pressure losses H
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

in the check valve are not

v

60 Hz UPA 200B, 250C

UPA 200B -- 130 /..

(Tolerances to
ISO 9906 Class 2)

Pump End G 5’’ / DN 125

The information is based on the model “with check
valve / connection branch and threaded end”.

The changes in the main dimensions of the “flanged
end” model are specified in the table below.

Check valve / connection branch with:

Threaded

end G5’’

Length

mm

200 150 (PN 10/16)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to DIN EN 1092--2.

Flanged end

DN 125

Length

mm

150 (PN 25/40)

Outside dia.

mm
250

270

Operating range:
Q

=24m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”d”

Maximum impeller dia.

65

60 Hz UPA 200B, 250C

UPA 250C -- 120 for Well Diameters of 250 mm (10 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

Q=0m

/h

H

o

UPA 250C -- 120/.. + ...

1l + UMA 150D 13/21
1h + UMA 150D 18/21
1f + UMA 150D 18/21
1d + UMA 150D 22/21
1 + UMA 150D 26/21

2l + UMA 150D 26/21
2k + UMA 150D 30/21
2h + UMA 150D 37/22
2f + UMA 150D 37/22
2d + UMA 200D 45/21
2 + UMA 200D 55/21

3h + UMA 200D 55/21
3f + UMA 200D 65/21
3d + UMA 200D 65/21
3 + UMA 200D 90/21

4f + UMA 200D 90/21
4d + UMA 250D 110/21
4 + UMA 250D 132/21

5d + UMA 250D 132/21
5 + UMA 250D 160/21

m

42.5

50.2

53.7

58.8

62.5

82.6

90.4

97.6

104.3

114.6

122.3

144.5

156.3

169.1

181.0

208.7

229.9

243.8

286.0

304.0
6 + UMA 250D 190/21 366.3 180.0 241.4 32 304.0 90.2 0.83 3/4 x 35 II
7 + UMA 300D 250/22 434.6 215.0 288.3 62 359.0 89.6 0.84 3/3x70 II + 1x35

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

P

N

kW

15.5

20.0

22.0

25.0

29.0

31.2

36.0

42.0

44.0

52.0

60.0

62.0

68.0

76.0

90.0

95.0

105.0

120.0

130.0

150.0

Rated
power

P

N

hp

20.8

26.8

29.5

33.5

38.9

41.8

48.3

56.3

59.0

69.7

80.5

83.1

91.2

101.9

120.7

127.4

140.8

160.9

174.3

201.2

Max. temperature

of the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

34
35
32
36
38

35
35
47
44
31
32

31
33
30
33

32
34
35

33
32

Rated

current

I

N

A

29.0

37.0

40.5

45.5

52.0

55.0

64.0

76.0

78.0

89.0

101.0

105.0

115.0

126.0

156.0

162.0

181.0

200.0

214.0

247.0

Effi-

ciency

η

M

%

81.4

83.1

82.7

84.6

85.6

85.4

85.6

85.1

84.9

85.7

86.8

86.8

87.6

87.6

88.2

88.2

88.6

89.3

89.3

89.7

Power

factor

cos φ

-- --

0.83

0.82

0.83

0.82

0.83

0.84

0.83

0.83

0.84

0.87

0.86

0.86

0.85

0.87

0.83

0.84

0.83

0.85

0.86

0.85

Number x cross-section of

conductors (use under water,

460 V and ≤ +30 _C)

D.o.l.

2

mm

4x2.5
4x4.0
4x4.0
4x4.0
4x6.0

4x6.0

4x6.0
3/4 x 4.0 II
3/4 x 4.0 II

3)

3)

4 x 10.0

4x16

4x16
3/4 x 10 II
3/4 x 10 II
3/4 x 16 II

3/4 x 16 II
3/4 x 16 II
3/4 x 25 II

3/4 x 25 II
3/4 x 25 II

3)

3)

3)

3)

3)

3)

3)

3)

3) 5)

3) 6)

6x95 + 1x50

Y-∆

mm

3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 2.5
3/4 x 4.0

3/4 x 4.0
3/4 x 4.0
3/4 x 4.0
3/4 x 4.0
3/4 x 6.0
3/4 x 6.0

3/4 x 6.0
3/4 x 10
3/4 x 10
3/4 x 16

3/4 x 16
3/4 x 25
3/4 x 25

3/4 x 25

3/4 x 35
3/4 x 35

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4) 5)

4) 5)

4) 7)

Dimensions / Weights / Horizontal Installation

L

P

UPA 250C -- 120/..

1l

1h

1f

1d

1

2l
2k
2h

2f
2d

2
3h

3f
3d

3

4f
4d

4
5d

5

mm

681
681
681
681
681

828
828
828
828
828
828

975
975
975
975

1122
1122
1122

1269

1269
6 1416 3335 3335 611 644 266 280 v
7 1563 3636 3636 757 794 304 304 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

LA¶ mm mAin ¶ kg

Standard Special Standard Special D.o.l. Y-∆

1510
1600
1600
1690
1795

1942
2042
2122
2122
2059
2169

2316
2446
2446
2716

2863
2651
2781

2928
3038

1510
1600
1600
1690
1795

1942
2042
2122
2122
2059
2169

2316
2446
2446
2716

2863
2651
2781

2928
3038

123
131
131
139
148

169
178
185
185
238
258

278
301
301
349

369
439
483

503
540

1)

135
143
143
151
160

185
194
201
201
254
274

299
322
322
370

394
464
508

532
569

D

230
230
230
230
232

232
232
233
233
235
238

238
235
235
244

244
246
257

257
257

max

in ¶ mm

232
232
232
232
233

233
233
233
233
235
235

235
239
239
244

244
257
257

257
266

Installation

v+h
v+h
v+h
v+h
v+h

v+h
v+h

3)

v

3)

v
v+h
v+h

v+h
v+h
v+h

3)

v

3)

v
v+h
v+h

v+h

4)

v

3) 4)

4)

2)

A

¶ mm

751
796
796
841
893

1040
1090

--

--

1099

1154

1301
1366
1366

--

-­1542
1607

1754

--

--

--

66

UPA 250C -- 120 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

Pump End G 6’’ / DN 150

The information is based on the model “with check
valve / connection branch and threaded end”.

The changes in the main dimensions of the “flanged
end” model are specified in the table below.

Check valve / connection branch with:

Threaded

end G6’’

Length

mm

229 179 (PN 10/16)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to DIN EN 1092--2.

Flanged end

DN 150

Length

mm

179 (PN 25/40)

Outside dia.

mm
285

300

60 Hz UPA 200B, 250C

UPA 250C -- 120 /..

(Tolerances to
ISO 9906 Class 2)

Operating range:
Q

=24m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”f”

Maximum impeller dia.

250

400

67

60 Hz UPA 200B, 250C

UPA 250C --150 for Well Diameters of 250 mm (10 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

Q=0m

H

0

UPA 250C -- 150/.. + ...

1l + UMA 150D 18/21
1k + UMA 150D 22/21
1d + UMA 150D 30/21
1 + UMA 150D 37/22

2k + UMA 200D 45/21
2h + UMA 200D 55/21
2f + UMA 200D 55/21
2c + UMA 200D 65/21
2 + UMA 200D 65/21

3h + UMA 200D 75/21
3g + UMA 200D 90/21
3d + UMA 200D 90/21
3b + UMA 250D 110/21
3 + UMA 250D 110/21

4e + UMA 250D 132/21
4c + UMA 250D 132/21
4b + UMA 250D 160/21
4 + UMA 250D 160/21

5d + UMA 250D 190/21
5b + UMA 250D 190/21
5 + UMA 300D 250/22

m

39.1

46.3

55.9

59.6

92.5

99.2

106.8

113.8

117.7

143.2

151.4

162.6

172.1

176.5

213.0

221.9

229.3

235.1

276.2

287.2

300.9

6b + UMA 300D 250/22 350.5

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

/h

Rated
power

Max. temperature

of the fluid handled

Rated

current

Effi-

ciency

Power

factor

v ≥ 0.5 m/s

P

P

kW

19.0

24.0

33.0

38.0

48.0

54.0

60.0

68.0

76.0

80.0

90.0

100.0

110.0

120.0

125.0

135.0

145.0

155.0

170.0

180.0

200.0

225.0

N

N

hp

25.5

32.2

44.3

51.0

64.4

72.4

80.5

91.2

101.9

107.3

120.7

134.1

147.5

160.9

167.6

181.0

194.4

207.9

228.0

241.4

268.2

301.7 61 373.0 89.8 0.85 3/3x70 II + 1x35

t

max

_C

1)

36
37
38
49

32
35
32
34
30

31
34
31
33
31

34
32
33
31

34
32
62

I

N

A

36.0

44.0

60.0

69.0

83.0

93.0

101.0

115.0

126.0

136.0

156.0

169.0

188.0

203.0

207.0

222.0

241.0

254.0

291.0

304.0

341.0

η

%

83.2

84.7

85.8

85.4

85.7

86.7

86.8

87.6

87.6

87.5

88.2

88.2

88.7

88.7

89.3

89.3

89.7

89.6

90.2

90.2

89.3

cos φ

M

-- --

0.81

0.81

0.81

0.81

0.86

0.85

0.86

0.85

0.87

0.85

0.83

0.85

0.83

0.84

0.85

0.86

0.85

0.86

0.82

0.83

0.83

Number x cross-section of

conductors (use under water,

460 V and ≤ +30 _C)

D.o.l.

2

mm

4x4.0
4x4.0
4x6.0

3/4 x 4.0 II

3)

4x10
4x16

4x16
3/4 x 10 II
3/4 x 10 II

3/4 x 10 II
3/4 x 16 II
3/4 x 16 II
3/4 x 16 II
3/4 x 16 II

3/4 x 25 II
3/4 x 25 II
3/4 x 25 II
3/4 x 25 II

3/4 x 35 II
3/4 x 35 II

3/3x70 II + 1x35

3)

3)

3)

3)

3)

3)

3)

3)

3)

3)

3)

3) 5)

3) 5)

3) 6)

3) 6)

6x95 + 1x50

6x95 + 1x50

Y-∆

mm

3/4 x 2.5
3/4 x 2.5
3/4 x 4.0
3/4 x 4.0

3/4 x 6.0
3/4 x 6.0
3/4 x 6.0

3/4 x 10
3/4 x 10

3/4 x 10
3/4 x 16
3/4 x 16
3/4 x 25
3/4 x 25

3/4 x 25

3/4 x 25
3/4 x 35
3/4 x 35

3/4 x 35
3/4 x 35

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4) 5)

4) 5)

4) 5)

4) 5)

5) 7)

5) 7)

Dimensions / Weights / Horizontal Installation

L

P

UPA 250C -- 150/..

1l
1k
1d

1

2k
2h

2f
2c

2

3h
3g
3d
3b

3

4e
4c
4b

4

5d
5b

5

mm

690
690
690
690

846
846
846
846
846

1002
1002
1002
1002
1002

1158
1158
1158
1158

1314
1314
1314

6b 1470 3543 3543 728 757 304 304 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

LA¶ mm mAin ¶ kg

Standard Special Standard Special D.o.l. Y-∆

1609
1699
1904
1984

2077
2187
2187
2317
2317

2563
2743
2743
2531
2531

2817
2817
2927
2927

3233
3233
3387

1609
1699
1904
1984

2077
2187
2187
2317
2317

2563
2743
2743
2531
2531

2817
2817
2927
2927

3233
3233
3387

129
137
156
163

235
255
255
278
278

313
345
345
415
415

478
478
515
515

584
584
709

1)

141
149
168
175

250
270
270
293
293

331
363
363
433
433

499
499
536
536

609
609
734

D

230
230
232
233

235
238
238
235
235

239
244
244
246
246

257
257
257
257

266
266
304

max

in ¶ mm

232
232
233
233

235
238
235
239
239

239
244
244
257
257

257
257
266
266

280
280
304

Installation

v+h
v+h
v+h

3)

v

v+h
v+h
v+h
v+h
v+h

v+h

3)

v

3)

v
v+h
v+h

v+h
v+h
v+h
v+h

3) 4)

v

3) 4)

v

4)

v

4)

2)

A

¶ mm

800
845
947

--

1112
1167

1167
1232
1232

1433

--

-­1417
1417

1638
1638
1693
1693

--

--

--

--

68

UPA 250C -- 150 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

Pump End G 6’’ / DN 150

The information is based on the model “with check
valve / connection branch and threaded end”.

The changes in the main dimensions of the “flanged
end” model are specified in the table below.

Check valve / connection branch with:

Threaded

end G 6’’

Length

mm

229 179 (PN 10/16)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to DIN EN 1092--2.

Flanged end

DN 150

Length

mm

179 (PN 25/40)

Outside dia.

mm
285

300

60 Hz UPA 200B, 250C

UPA 250C -- 150 /..

(Tolerances to
ISO 9906 Class 2)

Operating range:
Q

=36m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”g”

Maximum impeller dia.

250

400

69

60 Hz UPA 200B, 250C

UPA 250C -- 250 for Well Diameters of 250 mm (10 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

/h

Q=0m

H

0

UPA 250C -- 250/.. + ...

1m + UMA 150D 26/21
1k + UMA 150D 26/21
1f + UMA 150D 30/21
1 + UMA 150D 37/22

2m + UMA 200D 55/21
2l + UMA 200D 55/21
2g + UMA 200D 65/21
2e + UMA 200D 65/21
2c + UMA 200D 90/21
2 + UMA 200D 90/21

3h + UMA 200D 90/21
3f + UMA 250D 110/21
3d + UMA 250D 132/21
3 + UMA 250D 132/21

4f + UMA 250D 160/21
4e + UMA 250D 160/21
4c + UMA 250D 190/21
4 + UMA 250D 190/21

5e + UMA 250D 190/21
5b + UMA 300D 250/22

1)

Also see pages 3 and 55

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

m

37.8

42.1

47.0

54.7

73.7

80.3

89.0

96.1

104.2

108.0

125.8

136.5

149.8

159.0

181.9

190.4

205.9

213.4

238.5

264.4

P

N

kW

29.0

31.2

36.0

44.0

58.0

62.0

70.0

76.0

85.0

90.0

100.0

110.0

120.0

135.0

145.0

150.0

170.0

180.0

190.0

220.0

Rated
power

P

N

hp

38.9

41.8

48.3

59.0

77.8

83.1

93.9

101.9

114.0

120.7

134.1

147.5

160.9

181.0

194.4

201.2

228.0

241.4

254.8

295.0

Max. temperature of

the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

37
35
35
44

33
31
33
31
34
33

31
33
35
32

34
32
34
32

31
62

Rated

current

I

N

A

52.0

55.0

64.0

78.0

99.0

105.0

118.0

126.0

149.0

156.0

169.0

188.0

200.0

222.0

241.0

247.0

291.0

304.0

317.0

367.0

Effi-

ciency

η

M

%

85.6

85.4

85.6

84.9

86.8

86.8

87.6

87.6

88.1

88.2

88.2

88.7

89.3

89.3

89.7

89.7

90.2

90.2

90.2

89.7

Power

factor

cos φ

-- --

0.83

0.84

0.83

0.84

0.86

0.86

0.86

0.87

0.82

0.83

0.85

0.83

0.85

0.86

0.85

0.85

0.82

0.83

0.84

0.84

Number x cross-section of

conductors (use under water,

460 V and ≤ +30 _C)

D.o.l.

2

mm

4x6.0
4x6.0
4x6.0

3/4 x 4.0 II

3)

4x16

4x16
3/4 x 10 II
3/4 x 10 II
3/4 x 16 II
3/4 x 16 II

3/4 x 16 II
3/4 x 16 II
3/4 x 25 II
3/4 x 25 II

3/4 x 25 II
3/4 x 25 II

3/4 x 35 II
3/4 x 35 II

3/4 x 35 II

3/3x70 II + 1x35

3)

3)

3)

3)

3)

3)

3)

3)

3)

3)

3) 5)

3) 5)

3) 5)

3) 6)

6x95 + 1x50

Y-∆

mm

3/4 x 4.0
3/4 x 4.0
3/4 x 4.0
3/4 x 4.0

3/4 x 6.0
3/4 x 6.0

3/4 x 10
3/4 x 10
3/4 x 16
3/4 x 16

3/4 x 16
3/4 x 25
3/4 x 25
3/4 x 25

3/4 x 35
3/4 x 35
3/4 x 35
3/4 x 35

3/4 x 35

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4) 5)

4) 5)

4) 5)

4) 5)

4) 5)

4) 7)

Dimensions / Weights / Horizontal Installation

L

P

UPA 250C- 250/..

1m

1k

1f
1

2m

2l
2g
2e
2c

2
3h

3f
3d

3

4f
4e
4c

4

5e
5b

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

mm

709
709
709
709

884
884
884
884
884
884

1059
1059
1059
1059

1234
1234
1234
1234

1409
1409

LA¶ mm mAin ¶ kg

Standard Special Standard Special D.o.l. Y-∆

1823
1823
1923
2003

2225
2225
2355
2355
2625
2625

2800
2588
2718
2718

3003
3003
3153
3153

3328
3482

1823
1823
1923
2003

2225
2225
2355
2355
2625
2625

2800
2588
2718
2718

3003
3003
3153
3153

3328
3482

146
147
156
163

255
255
278
278
326
326

345
415
459
459

515
515
566
566

585
710

1)

154
155
164
171

266
266
289
289
337
337

359
429
473
473

533
533
584
584

606
731

D

232
232
232
233

238
238
235
235
244
244

244
246
257
257

257
257
266
266

266
304

max

in ¶ mm

233
233
233
233

235
235
239
239
244
244

244
257
257
257

266
266
280
280

280
304

Installation

v+h
v+h
v+h

3)

v

v+h
v+h
v+h
v+h

3)

v

3)

v

3)

v
v+h
v+h
v+h

4)

v

4)

v

3) 4)

v

3) 4)

v

3) 4)

v

4)

v

2)

A

¶ mm

896
896
946

--

1185

1185
1250
1250

--

--

-­1454
1519
1519

--

--

--

--

--

--

70

UPA 250C -- 250 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

Pump End G 6’’ / DN 150

The information is based on the model “with check
valve / connection branch and threaded end”.

The changes in the main dimensions of the “flanged
end” model are specified in the table below.

Check valve / connection branch with:

Threaded

end G 6’’

Length

mm

229 179 (PN 10/16)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to DIN EN 1092--2.

Flanged end

DN 150

Length

mm

179 (PN 25/40)

Outside dia.

mm
285

300

60 Hz UPA 200B, 250C

UPA 250C -- 250 /..

(Tolerances to
ISO 9906 Class 2)

Operating range:
Q

=60m3/h

min

= End of characteristic curve

Q

max

Optimum impeller dia. ”h”

Maximum impeller dia.

250

400

71

60 Hz UPA 200B, 250C

72

60 Hz

Application

Handling clean or slightly contaminated water in applications
such as:

-- general water supply

-- irrigation and spray irrigation

-- pressure boosting

-- lowering and maintaining ground water levels as well as

-- drainage
Also used in mining, sprinkler installations, fountains etc.
Permissible sand content in the fluid handled: 50 g/m
Also suitable for aggressive seawater if supplied in material

variant C3 (duplex).

3

.

Operating Data

Capacity Q up to 1080 m3/h (300 l/s...................

or up to 4000 US GPM)

Head H up to 474 m......................

Temperature of fluid handled t up to +50 °C..

Speed n ≈ 3500 rpm.....................

UPA 300, 350

Submersible Borehole Pumps

for Well Diameters

of 300 mm (12 inches) and Above

and of 350 mm (14 inches) and Above

Single-entry and mixed flow

Design

Single or multistage, single-entry centrifugal pump in
ring-section design. For vertical and horizontal installation.
Mixed flow hydraulic systems with impellers that can be turned
down. Stage casings are connected by means of stud bolts.

Suction casing fitted between pump and motor. Suction casing
equipped with strainer to protect the pump from coarse
particles in the fluid.

Pumps with check valve or connection branch on option. Both
models with threaded or flanged end.

Particularly suitable for vertical installation in narrow deep wells.

Designation (Example)

UPA

300 -- 9 4 /5 b

Type series
Minimum well diameter (mm)

(for ex.: 300 mm = 12 inches)

Capacity Q
Number of stages
Reduced impeller diameter(s)

at 50 Hz (l/s)

opt

Certification

Quality management certified to ISO 9001

Available automation products:

• Hyamaster
(for UPA 300)

Product Features

-- Very sturdy design

-- Suitable for installation in narrow deep wells

-- High efficiency

-- Motor designed for maximum pump output

-- Low noise level

-- For vertical or horizontal installation

-- Non-return valve protected against blocking

-- Pre-filled motor; no risk of contamination of the handled
water

73

60 Hz

UPA 300, 350

Selection Chart (Ranges on Offer) n ≈ 3500 rpm

UPA 300 -- 94

UPA 300 -- 65

UPA 350 -- 128

UPA 350 -- 180

UPA 300 -- 65

UPA 300 -- 94

Note: The diagram shows the ∆Q

ranges ∆Q
74

of the individual pump sizes are given in the characteristic curves for different stage numbers on the following pages.

B

UPA 350 -- 180

UPA 350 -- 128

range on offer. The pumps can be offered for any duty point within this range. The operating

A

60 Hz

(

)

(

3

)

/

(

3

)

/

UPA 300, 350

Material Variants

G (Standard) B (Special) C3 (Duplex)

Pump

Casing Cast iron

Impeller Bronze (CC480K--GS) CrNiMo steel

Shaft Cr steel

Wear ring

Bearings Cr steel

Screws,
bolts and

2)

nuts

motor

Shaft CrNiMo steel (1.4462)
Casing Cast iron

Stator
case

Screws,
bolts and

2)

nuts

1)

For large number of stages

2)

In contact with fluid handled

3)

for motors UMA 200D and. UMA 250D only7)DIN mat. code: GG-25

4)

for motors UMA 300D only

(JL 1030

Nodular cast

(JS--10306))

G (Standard) C2 (Special)

JL 1040

5)

)/

1)

iron

(1.4021)

high-performance plastics

(1.4021)
/ carbon

CrNiMo steel

(A4--70)

5)

(JL-1030

CrNi steel

1.4301

/

4) 7)

CrNiMo steel (A4 -70)

Bronze

(CC480K--GS) /

Aluminium

bronze

(CC333G--GS)

CrNiMo steel

(1.4462)

Aluminium

bronze

(CC308G--R750)

/ carbon

CrNiMo steel

(1.4408

)

1.4517

CrNiMo steel

1.4571

1.44624))

CrNiMo steel

1)

3)

/

4)

)

5)

DIN mat. code: GG-20

6)

DIN mat. code: GGG-40

(1.4517)

(1.4517)

CrNiMo steel

(1.4462)

CrNiMo steel

(1.4138)

SiC / SiC

CrNiMo steel

(1.4462)

C3 (Duplex)

CrNiMo steel

(1.4539

(1.4517

CrNiMo steel

1.4539

1.44624))

CrNiMo steel

(1.4539

1.4462

3)

3)

4)

Type of Installation

In general, the pumps are installed vertically. Some models
may also be installed horizontally, depending on the number of
stages and motor size.

Drive

Type water-filled submersible................

squirrel-cage motor, 2-poles

Type of enclosure IP 68....

Frequency 60 Hz...........

Type of current three-phase (3~).......

Rated voltage U 440 V ... 460 V......

Rated power P

N

Frequency of starts 10 / h

...

up to 415 kW (556.5 hp)......

1)

and5/h

2)

Minimum delay

before re-starting 3 min.....

Motor design is in compliance with VDE regulations.

1)

UMA 200D and 250D motors

2)

UMA 300D motor and larger motors

Connection to Power Supply

The submersible motors are supplied ex factory with 1 or 2

/

4)

)

motor leads, eachequipped with an earth conductor. All motors
are provided with internal earthing.

Any extension cables required are connected using water-tight
cable connectors.

Motor leads and extension cables are suitable for drinking

/

)

water applications.

Starting Methods

D.o.l. (autotransformer or soft starter) or star-delta.

Bearings / Lubrication

Radial plain bearings: pump bearings lubricated by the fluid
handled, motorbearings by the motor’s waterfill. Depending on
the pump size and number of stages, 1 or 2 intermediate
bearings are fitted in the pump.

Axial thrust is balanced by a tilting-pad thrust bearing in the
motor (lower end).

Direction of Rotation of the Pump

Clockwise rotation (when looking at the drive shaft end).

Pump End (Discharge Nozzle)

Optionally with internal thread G 6’’ and G 8’’ or flange DN 150
to DN 250, depending on pump size.

Coating (Standard)

Quality 2-component high-build coating..............

(epoxy resin base), approved for

drinking water contact

Coating structure Primer and top coat.....

Film thickness 100 to 150 µm.......

Colour ultramarine blue (RAL 5002)..............

Speed Control / Variable Speed

The submersible borehole pumps can also be run at variable
speed to accommodate different operating points.

Application Temperatures

The submersible borehole pumps are, as a standard, suitable
for use in water with temperatures of up to t = +30 °C. An
indispensable requirement for this is a flow velocity of

v ≥0.5 m/s past the motor. This requirement is met, for
example, when the pump is installed in a deep well above the
well screen / filter, etc.

With certain restrictions, some motor sizes may also be used
in water with temperatures of up to t

= +50 °C or for operation

without an adequate cooling flow of water past the motor, i.e. v
= 0 m/s (for example, when the unit is installed in a deep well
below the screen / filter area or in a pump sump, etc.).

Variants Available on Request

-- Other materials

-- More wear-resistant designs

-- Higher supply voltages up to U = 6600 V

-- Models with cooling, suction or pressure shroud

75

Design Features (UPA 300-- 94/.. + UMA 250D ../21)

Check valve with anti-blockage
valve disc

-- No jamming or tilting.

-- Spring-loaded design makes for
minimum valve closing times and
prevents waterhammer.

-- High operating reliability.

Robust wear rings

-- Replaceable wear rings made of
corrosion- and wear-resistant
metal.

-- Protection against wear in the
clearance; easy servicing.

Stainless steel union elements

-- All wetted bolts, screws and nuts
are made of CrNiMo steel.

-- High operating reliability.

-- Easy to remove and re-use even
after many years of operation.

60 Hz

UPA 300, 350

All wetted plastic components are
approved for drinking water contact

1)

(BAM

-- Coating, electric cables, seal

1) German Federal Institute for Materials Research

Enclosed pump bearing

-- No-maintenance design, high wear

-- For trouble-free long-term operation.

Mixed-flow impellers

-- Can be turned down. This means

)

elements, gaskets, etc. are
absolutely fit for use in drinking
water applications.

resistance.

pump performance can be exactly
matched to head requirements in the
system.

Wear-resistant mechanical
seal

-- Long service life and high
operating reliability.

Counter thrust bearing

-- Reliable balancing of negative
axial thrust.

-- Impellers do not rub on the stage
casings.

Tried and tested thrust bearing

-- Water-lubricated self-aligning
tilting-pad journal bearing.

-- No-maintenance design suitable
for maximum load-carrying
capacity under continuous
operation conditions.

-- New materials combination
(stainless steel / carbon) for high
safety factor.

Stainless steel pump shaft

-- Fully protected by impeller hubs and
sleeves from direct wear caused by
the fluid handled.

The KSB motor

-- Efficienciesupto91%.

-- VDE-compliant, i.e. high level of
electrical safety.

-- Designed for max. pump power to
protect unit from overloads.

Dynamically balanced rotor

-- Ensures smooth running.

Reliable pressure balancing system

-- Optimum rubber expansion diaphragm
design.

-- Enables installation at very low depths

76

3411:10

60 Hz

UPA 300, 350

77

60 Hz

UPA 300, 350

UPA 300 -- 65 for Well Diameters of 300 mm (12 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

Q=0m3/h

H

o

UPA 300 -- 65/ ... + ...

1n + UMA 200D 37/21
1m + UMA 200D 37/21
1l + UMA 200D 37/21
1f + UMA 200D 45/21
1 + UMA 200D 55/21

2m + UMA 200D 65/21
2l + UMA 200D 75/21
2g + UMA 200D 90/21
2d + UMA 250D 110/21
2 + UMA 250D 132/21

3k + UMA 250D 132/21
3h + UMA 250D 160/21
3e + UMA 250D 160/21
3d + UMA 250D 190/21
3 + UMA 300D 250/22

4g + UMA 300D 250/22
4e + UMA 300D 250/22
4b + UMA 300D 250/22
4 + UMA 300D 250/22

5e + UMA 300D 250/22
5b + UMA 300D 250/22
5 + UMA 300D 300/22

6c + UMA 300D 300/22
6 + UMA 300D 400/22

m

42.1

49.9

54.5

59.6

69.0

101.5

111. 4

120.4

132.9

142.9

171.4

179.9

189.2

199.9

218.8

248.3

258.0

276.7

289.9

320.9

344.0

362.4

408.4

432.9

7c + UMA 300D 400/22 474.6 400.0 536.4 56 634.0 91.1 0.87 6x95 II + 1x50

1)

Also see pages 3 and 75

2)

3/4 = 1 x 3-core + 1 x 4-core. flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

Dimensions / Weights / Horizontal Installation

L

P

UPA 300 - 65/ ..

1n

1m

1l
1f

1

2m

2l
2g
2d

2

3k
3h
3e
3d

3

4g
4e
4b

4

5e
5b

5

6c

6

¶ mm

735
735
735
735
735

900
900
900
930
930

1095
1095
1095
1095
1095

1260
1260
1260
1260

1425
1425
1425

1590
1590

7c 1755 4128 4128 1005 1044 304 304 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

78

LA¶ mm mAin ¶ kg D

Standard Special Standard Special D.o.l Y-∆

1876
1876
1876
1966
2076

2371
2461
2641
2459
2589

2754
2864
2864
3014
3168

3333
3333
3333
3333

3498
3498
3678

3843
3963

P

N

kW

26.0

34.0

38.0

46.0

60.0

68.0

78.0

95.0

110.0

125.0

130.0

145.0

155.0

170.0

200.0

200.0

215.0

240.0

265.0

265.0

295.0

330.0

345.0

390.0

Rated
power

1876
1876
1876
1966
2076

2371
2461
2641
2459
2589

2754
2864
2864
3014
3168

3333
3333
3333
3333

3498
3498
3678

3843
3963

P

N

hp

34.9

45.6

51.0

61.7

80.5

91.2

104.6

127.4

147.5

167.6

174.3

194.4

207.9

228.0

268.2

268.2

288.3

321.8

355.4

355.4

395.6

442.5

462.7

523.0

Max. temperature

of the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

41
38
35
34
32

34
31
32
33
34

33
34
32
34
63

63
62
61
59

59
57
59

58
57

213
213
213
229
249

304
320
352
430
474

506
543
543
594
747

779
779
779
779

811
811

889
921

973

224
224
224
240
260

319
335
367
446
490

526
563
563
614
770

806
806
806
806

842
842
920

956

1008

1)

Rated

current

I

N

A

49.5

61.0

67.0

80.0

101.0

115.0

134.0

162.0

188.0

207.0

214.0

241.0

254.0

291.0

341.0

341.0

359.0

394.0

429.0

429.0

471.0

534.0

554.0

622.0

269
269
269
269
271

276
275
278
278
289

289
289
289
298
325

325
325
325
325

325
325
304

304
304

Effi-

ciency

83.5

84.6

84.8

85.7

86.8

87.6

87.5

88.2

88.7

89.3

89.3

89.7

89.6

90.2

89.3

89.3

89.6

90.0

90.2

90.2

90.4

90.8

90.9

91.1

max

η

M

%

¶ mm

Power

factor

cos φ

276
276
276
276
276

275
275
278
289
289

289
298
298
311
325

325
325
325
325

325
325
304

304
304

-- --

0.79

0.84

0.85

0.85

0.86

0.85

0.84

0.84

0.83

0.85

0.86

0.85

0.86

0.82

0.83

0.83

0.84

0.85

0.86

0.86

0.87

0.86

0.86

0.87

Number x cross-section of

conductors (use under water,

460 V and ≤ 30 _C)

D.o.l.

2

mm

4x10
4x10
4x10
4x10
4x16

3/4 x 10 II
3/4 x 10 II
3/4 x 16 II
3/4 x 16 II
3/4 x 25 II

3/4 x 25 II
3/4 x 25 II
3/4 x 25 II

3/4 x 35 II

3/3x70 II + 1x35
3/3x70 II + 1x35

3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35

3/3x70 II + 1x35
3/3x70 II + 1x35

6x95 II + 1x50
6x95 II + 1x50

6x95 II + 1x50

Installation

3)

3)

3)

3)

3)

3)

3)

3)

3) 5)

3) 6)

3)6)

3) 6)

3) 6)

3) 6)

3) 6)

3) 6)

3) 7)

3) 7)

3) 7)

3) 7)

2)

¶ mm

v+h
v+h
v+h
v+h
v+h

v+h
v+h

v
v+h
v+h

v+h
v+h
v+h

3) 4)

v

v

v

v

v

v

v

v

v

v

3) 4)

v

3) 4)

3)

4)

4)

4)

4)

4)

4)

4)

4)

4)

1046
1276

1321

1335
1400

1565
1620
1620

6x95 + 1x50
6x95 + 1x50

6x95 + 1x50
6x95 + 1x50
6x95 + 1x50

6x95 + 1x50
6x95 + 1x50
6x95 + 1x50

6x95 + 1x50
6x95 + 1x50

6x95 + 1x50

A

946
946
946
991

--

--

--

--

--

--

--

--

--

--

--

--

--

Y-∆

mm

3/4 x 6.0
3/4 x 6.0
3/4 x 6.0
3/4 x 6.0
3/4 x 6.0

3/4 x 10
3/4 x 10
3/4 x 16
3/4 x 25
3/4 x 25

3/4 x 25
3/4 x 35
3/4 x 35
3/4 x 35

2

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4)

4) 5)

4) 5)

4) 5)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

UPA 300 -- 65 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

(not considering check valve)

NPSH: Net positive suction head

required by the pump

Pump End G 6’’ / DN 150

The information is based on the model “with check
valve and threaded end”.

The changes in the main dimensions of the “flanged
end” model or the model “with connection branch”
are specified in the table below.

a) Check valve with:

Threaded end

G6’’

Length

mm

255 220 (PN 10/16)

228 (PN 25/40)

b) Connection branch with:

Threaded end

G6’’

Length

mm

150 140 (PN 10/16)

148 (PN 25/40)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

Length

mm

Length

mm

Flanged end

DN 150

Flanged end

DN 150

Outside dia.

mm
285

300

Outside dia.

mm
285

300

60 Hz

Operating range:
Q

min

Q

max

=60m3/h

= End of characteristic curve

UPA 300, 350

UPA 300 -- 65

(Tolerances to
ISO 9906 Class 2)

Maximum
impeller dia.

Optimum im­peller dia. “b”

79

60 Hz

UPA 300, 350

UPA 300 -- 94 for Well Diameters of 300 mm (12 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

Q=0m

/h

H

o

UPA 300 -- 94/ ... + ...

1n + UMA 200D 45/21
1m + UMA 200D 55/21
1k + UMA 200D 55/21
1g + UMA 200D 65/21
1d + UMA 200D 75/21
1 + UMA 200D 90/21

2m + UMA 250D 110/21
2k + UMA 250D 132/21
2h + UMA 250D 160/21
2d + UMA 250D 190/21
2 + UMA 300D 250/22

3k + UMA 300D 250/22
3h + UMA 300D 250/22
3e + UMA 300D 250/22
3c + UMA 300D 250/22
3 + UMA 300D 250/22

4f + UMA 300D 300/22
4c + UMA 300D 300/22
4 + UMA 300D 400/22

m

49.0

54.5

62.5

68.1

73.4

78.7

113.3

131.7

139.7

153.4

167.1

205.5

216.8

230.7

240.0

251.5

300.9

319.4

335.2

5e + UMA 300D 400/22 382.2 390.0 523.0 57 622.0 91.1 0.87 6x95 II + 1x50

1)

Also see pages 3 and 75

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

P

N

kW

48.0

56.0

62.0

72.0

80.0

95.0

110.0

130.0

145.0

170.0

200.0

200.0

220.0

235.0

265.0

295.0

315.0

350.0

390.0

Rated

power

P

N

hp

64.4

75.1

83.1

96.6

107.3

127.4

147.5

174.3

194.4

228.0

268.2

268.2

295.0

315.1

355.4

395.6

422.4

469.4

523.0

Max. temperature

of the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

32
34
31
32
31
32

32
33
34
34
63

63
62
61
59
57

59
57
57

Rated

current

I

N

A

83.0

96.0

105.0

120.0

136.0

162.0

188.0

214.0

241.0

291.0

341.0

341.0

367.0

386.0

429.0

471.0

513.0

562.0

622.0

Effi-

ciency

η

M

%

85.7

86.8

86.8

87.6

87.5

88.2

88.7

89.3

89.7

90.2

89.3

89.3

89.7

89.9

90.2

90.4

90.7

90.9

91.1

Power

factor

cos φ

-- --

0.86

0.85

0.86

0.86

0.85

0.84

0.83

0.86

0.85

0.82

0.83

0.83

0.84

0.85

0.86

0.87

0.85

0.86

0.87

Number x cross-section of

conductors (use under water,

460 V and ≤ +30 _C)

D.o.l.

2

mm

4x10
4x16

4x16
3/4 x 10 II
3/4 x 10 II
3/4 x 16 II

3/4 x 16 II
3/4 x 25 II
3/4 x 25 II

3/4 x 35 II

3/3x70 II + 1x35
3/3x70 II + 1x35

3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35

6x95 II + 1x50
6x95 II + 1x50
6x95 II + 1x50

3)

3)

3)

3)

3)

3)

3) 5)

3) 6)

3) 6)

3) 6)

3) 6)

3) 6)

3) 6)

3) 7)

3) 7)

3) 7)

3) 7)

6x95 + 1x50
6x95 + 1x50

6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50

6x95 + 1x50
6x95 + 1x50
6x95 + 1x50

6x95 + 1x50

Y-∆

mm

3/4 x 6.0
3/4 x 6.0
3/4 x 6.0
3/4 x 10
3/4 x 10
3/4 x 16

3/4 x 25

3/4 x 25
3/4 x 35
3/4 x 35

2

4)

4)

4)

4)

4)

4)

4)

4)

4) 5)

4) 5)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

Dimensions / Weights / Horizontal Installation

L

UPA 300 - 94/ ..

1n

1m

1k
1g
1d

1

2m

2k
2h
2d

2

3k
3h
3e
3c

3

4f

4c

4

P

¶ mm

775
775
775
775
775
775

980
980
980
980
980

1155
1155
1155
1155
1155

1330
1330
1330

LA¶ mm mAin ¶ kg D

Standard Special Standard Special D.o.l Y-∆

2006

2116

2116
2246
2336
2516

2509
2639
2749
2899
3053

3228
3228
3228
3228
3228

3583
3583
3703

2006
2116
2116
2246
2336
2516

2509
2639
2749
2899
3053

3228
3228
3228
3228
3228

3583
3583
3703

253
273
273
296
312
344

450
494
531
582
731

764
764
764
764
764

875
875
927

1)

268
288
288
311
327
359

471
515
552
603
755

793
793
793
793
793

909
909
961

279
281
281
286
285
288

288
299
299
308
331

331
331
331
331
331

311
311
311

max

¶ mm

5e 1505 3878 3878 960 999 311 311 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

286
286
286
285
285
288

299
299
308
321
331

331
331
331
331
331

311
311
311

Installation

v+h
v+h
v+h
v+h
v+h

3)

v

v+h
v+h
v+h

3)

v

4)

v

4)

v

4)

v

4)

v

4)

v

4)

v

4)

v

4)

v

3) 4)

v

3) 4)

2)

A

¶ mm

1006
1061
1061
1126
1171

--

1360
1425
1480

--

--

--

--

--

--

--

--

--

--

--

80

UPA 300 -- 94 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve.

v

: Pump efficiency

η

p

(not considering check valve).

NPSH: Net positive suction head

required by the pump.

Pump End G 8’’ / DN 200

The information is based on the model “with check
valve and threaded end”.

The changes in the main dimensions of the “flanged
end” model or the model “with connection branch”
are specified in the table below.

a) Check valve with:

Threaded end

G8’’

Length

mm

290 240 (PN 10)

b) Connection branch with:

Threaded end

G8’’

Length

mm

200 134 (PN 10)

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

Flanged end

Length

mm

240 (PN 16)
244 (PN 25)

Flanged end

Length

mm

134 (PN 16)
138 (PN 25)

DN 200

DN 200

Outside dia.

mm
340

340
360

Outside dia.

mm
340

340
360

60 Hz

Operating range:
Q

min

Q

max

Optimum
impeller dia. “b”

=84m3/h

= End of characteristic curve

UPA 300, 350

UPA 300 -- 94

(Tolerances to
ISO 9906 Class 2)

Maximum
impeller dia.

385

81

60 Hz

UPA 300, 350

UPA 350 -- 128 for Well Diameters of 350 mm (14 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

/h

Q=0m

H

o

UPA 350 -- 128/ ... + ...

1l + UMA 200D 55/21
1k + UMA 200D 75/21
1h + UMA 200D 90/21
1f + UMA 250D 110/21
1d + UMA 250D 132/21
1b + UMA 250D 160/21
1 + UMA 250D 190/21

2h + UMA 300D 250/22
2g + UMA 300D 250/22
2e + UMA 300D 250/22
2c + UMA 300D 250/22
2b + UMA 300D 300/22
2 + UMA 300D 300/22

m

56.9

65.8

74.9

83.2

91.9

100.0

109.0

154.9

162.6

174.6

189.0

204.1

220.4

3c + UMA 300D 400/22 282.3 415.0 556.5 56 658.0 91.1 0.87 6x95 II + 1x50

1)

Also see pages 3 and 75

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

P

N

kW

60.0

78.0

100.0

115.0

135.0

155.0

185.0

205.0

220.0

245.0

280.0

315.0

360.0

Rated
power

P

N

hp

80.5

104.6

134.1

154.2

181.0

207.9

248.1

274.9

295.0

328.6

375.5

422.4

482.8

Max. temperature

of the fluid handled

v ≥ 0.5 m/s

1)

t

max

_C

32
32
31
32
32
31
31

62
62
60
58
59
57

Rated

current

I

N

A

101.0

134.0

169.0

195.0

222.0

254.0

311.0

347.0

367.0

400.0

450.0

513.0

575.0

Effi-

ciency

η

M

%

86.8

87.5

88.2

88.7

89.3

89.6

90.2

89.5

89.7

90.1

90.3

90.7

91.0

Power

factor

cos φ

-- --

0.86

0.84

0.85

0.84

0.86

0.86

0.83

0.83

0.84

0.86

0.87

0.85

0.87

Number x cross-section of

conductors (use under water,

460 V and ≤ 30 _C)

D.o.l.

2

mm

4x16
3/4 x 10 II
3/4 x 16 II
3/4 x 16 II
3/4 x 25 II
3/4 x 25 II

3/4 x 35 II

3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35

6x95 II + 1x50
6x95 II + 1x50

3)

3)

3)

3)

3)

3) 5)

3) 6)

3) 6)

3) 6)

3) 6)

3) 7)

3) 7)

3) 7)

6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50

6x95 + 1x50

Y-∆

mm

3/4 x 6.0

3/4 x 10
3/4 x 16
3/4 x 25

3/4 x 25
3/4 x 35
3/4 x 35

2

4)

4)

4)

4)

4)

4) 5)

4) 5)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

Dimensions / Weights / Horizontal Installation

L

UPA 350 -- 128/ ..

1l

1k

1h

1f
1d
1b

1

2h
2g
2e

2c
2b

2

P

¶ mm

898
898
898
898
898
898
898

1108
1108
1108
1108
1108
1108

LA¶ mm mAin ¶ kg D

Standard Special Standard Special D.o.l Y-∆

2239
2459
2639
2427
2557
2667
2817

3181
3181
3181
3181
3361
3361

2239
2459
2639
2427
2557
2667
2817

3181
3181
3181
3181
3361
3361

289
328
360
432
476
513
564

764
764
764
764
842
842

1)

308
347
379
452
496
533
584

793
793
793
793
871
871

max

316
320
324
324
334
334
343

360
360
360
360
341
341

3c 1308 3681 3681 936 970 341 341 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

¶ mm

322
320
324
334
334
343
357

360
360
360
360
341
341

Installation

v+h
v+h

3)

v
v+h
v+h
v+h

3)

v

4)

v

4)

v

4)

v

4)

v

4)

v

4)

v

3) 4)

2)

A

¶ mm

1119

1229

-- -­1213
1278
1333

-- --

-- --

-- --

-- --

-- --

-- --

-- --

-- --

82

UPA 350 -- 128 / ..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

NPSH: Net positive suction head

(not considering check valve)

required by the pump

60 Hz

UPA 300, 350

UPA 350 -- 128

(Tolerances to
ISO 9906 Class 2)

Pump End G 8’’ / DN 200

1)

The information is based on the model “with check
valve and threaded end”.

The changes in the main dimensions of the “flanged
end” model or the model “with connection branch”
are specified in the table below.

a) Check valve with:

Threaded end

G8’’

Length

mm

328 278 (PN 10)

Flanged end

Length

mm

278 (PN 16)

DN 200

Outside dia.

mm
340

b) Connection branch with:

Threaded end

G8’’

Length

mm

169 123 (PN 10)

Flanged end

Length

mm

123 (PN 16)

DN 200

Outside dia.

mm
340

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

1)

DN 250 check valve (with flanged
end only) on request. For relevant head
losses see HVcurveplottedoverQ.

Operating range:
Q

= 120 m3/h

min

= End of characteristic curve

Q

max

Optimum
impeller dia. “c”

Maximum impeller dia.

448

365 -- pedestals for motor
440 -- pedestals for pump

83

60 Hz

UPA 300, 350

UPA 350 -- 180 for Well Diameters of 350 mm (14 inches) and Above

Pumps with submersible motors for ... -- Type of current / voltage three-phase (3~) / 460 V...........................

-- Starting d.o.l. (D) or star-delta (Y-∆).......................................

Pump unit Pump Motor Motor lead2),flat

Discharge

head

3

/h

Q=0m

H

o

UPA 350 -- 180/ ... + ...

1m + UMA 200D 90/21
1l + UMA 250D 110/21
1h + UMA 250D 110/21
1e + UMA 250D 132/21
1c + UMA 250D 160/21
1 + UMA 250D 190/21

2k + UMA 300D 250/22
2g + UMA 300D 250/22
2f + UMA 300D 250/22
2d + UMA 300D 250/22
2b + UMA 300D 300/22
2 + UMA 300D 300/22

m

59.3

66.0

71.0

80.8

89.7

96.3

141.7

149.9

164.3

177.6

189.0

198.2

3f + UMA 300D 400/22 244.5 405.0 543.1 56 642.0 91.1 0.87 6x95 II + 1x50

1)

Also see pages 3 and 75

2)

3/4 = 1 x 3-core + 1 x 4-core, flat, 90_ spacing.

3)

2 cables in parallel.

4)

Delta wiring in the cable connector or control cabinet.

5)

1 x 3--core flat + 1 x 4--core round.

6)

2 x 3--core flat + 1 x 1--core round.

7)

6 x 1--core round + 1 x 1--core round.

P

N

kW

95.0

110.0

115.0

135.0

150.0

175.0

230.0

245.0

265.0

290.0

320.0

360.0

Rated
power

P

N

hp

127.4

147.5

154.2

181.0

201.2

234.7

308.4

328.6

355.4

388.9

429.1

482.8

of the fluid handled

Max. temperature

v ≥ 0.5 m/s

1)

t

max

_C

32
33
31
32
33
33

61
60
59
57
59
57

Rated

current

I

N

A

162.0

188.0

195.0

222.0

247.0

297.0

381.0

400.0

429.0

463.0

521.0

575.0

Effi-

ciency

η

M

%

88.2

88.7

88.7

89.3

89.7

90.2

89.9

90.1

90.2

90.4

90.8

91.0

Power

factor

cos φ

-- --

0.84

0.83

0.84

0.86

0.85

0.82

0.85

0.86

0.86

0.87

0.85

0.87

Number x cross-section of

conductors (use under water,

460 V and ≤ 30_C)

D.o.l.

2

mm

3/4 x 16 II
3/4 x 16 II
3/4 x 16 II
3/4 x 25 II
3/4 x 25 II

3/4 x 35 II

3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35
3/3x70 II + 1x35

6x95 II + 1x50
6x95 II + 1x50

3)

3)

3)

3)

3)

3) 5)

3) 6)

3) 6)

3) 6)

3) 6)

3) 7)

3) 7)

3) 7)

6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50
6x95 + 1x50

6x95 + 1x50

Y-∆

mm

3/4 x 16
3/4 x 25
3/4 x 25

3/4 x 25
3/4 x 35
3/4 x 35

2

4)

4)

4)

4)

4) 5)

4) 5)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

4) 7)

Dimensions / Weights / Horizontal Installation

L

P

UPA 350 - 180/ ..

1m

1l
1h
1e
1c

1

2k
2g
2f
2d
2b

2

¶ mm

898
898
898
898
898
898

1108
1108
1108
1108
1108
1108

3f 1308 3681 3681 936 970 341 341 v

1)

Including check valve with threaded end and standard motor leads.

2)

v = vertical; h = horizontal.

3)

Horizontal installation on request.

4)

Horizontal installation only with bearing pedestals of special design.

LA¶ mm mAin ¶ kg D

Standard Special Standard Special D.o.l Y-∆

2639
2427
2427
2557
2667
2817

3181
3181
3181
3181
3361
3361

2639
2427
2427
2557
2667
2817

3181
3181
3181
3181
3361
3361

360
432
432
476
513
564

764
764
764
764
842
842

1)

379
452
452
496
533
584

793
793
793
793
871
871

324
324
324
334
334
343

360
360
360
360
341
341

max

¶ mm

324
334
334
334
343
357

360
360
360
360
341
341

Installation

3)

v
v+h
v+h
v+h
v+h

3)

v

4)

v

4)

v

4)

v

4)

v

4)

v

4)

v

3) 4)

2)

A

¶ mm

-- -­1213
1213
1278
1333

-- --

-- --

-- --

-- --

-- --

-- --

-- --

-- --

84

UPA 350 -- 180 /..

The characteristic curves shown are for preliminary
selection only. Exact selection data will be provided
in our quotation.

Selection

The pressure losses Hvin the check valve are not
considered in the pump characteristic curves.

For more details and a selection example refer to
page 8.

Legend ...
H

: Head losses in the check valve

v

η

: Pump efficiency

p

NPSH: Net positive suction head

(not considering check valve)

required by the pump

60 Hz

UPA 300, 350

UPA 350 -- 180

(Tolerances to
ISO 9906 Class 2)

Pump End G 8 / DN 200

1)

The information is based on the model “with check
valve and threaded end”.

The changes in the main dimensions of the “flanged
end” model or the model “with connection branch”
are specified in the table below.

a) Check valve with:

Threaded end

G8’’

Length

mm
328 278 (PN 10)

Flanged end

Length

mm

278 (PN 16)

DN 200

Outside dia.

mm
340

b) Connection branch with

Threaded end

G8’’

Length

mm
169 123 (PN 10)

Flanged end

Length

mm

123 (PN 16)

DN 200

Outside dia.

mm
340

Threaded end to DIN ISO 228, Part 1.
Flange mating dimensions to

DIN EN 1092--2.

1)

DN 250 check valve (with flanged
end only) on request. For relevant head
losses see H

curveplottedoverQ.

V

Operating range:
Q

= 144 m3/h

min

= End of

Q

max

characteristic curve

448

365 -- pedestals for motor
440 -- pedestals for pump

85

60 Hz

UPA 300, 350

86

60 Hz

BSX, BSF

Applications

Transport of pure and natural water for ...

-- general water procuring and supplying,

-- irrigation and sprinkling,

-- ground-water lowering and maintaining in open-work

mining,

-- water maintaining and draining of galleries in underground

mining.

In addition in pressure-boosting plants and sprinkler
installations as well as in offshore and cavern technologies etc.

Admissible contents of sand in the liquid handled: 50 g/m

3

.

Operating Data

Capacity Q up to 2200 m3/h (610 l/s...................

or up to 10,000 US GPM)

Head H up to 240 m......................

o

Temperature of liquid handled t up to + 50

Speed n ≈ 1750 rpm.....................

C.

Design

Single- or multi-stage, single-flow centrifugal pumps in
ring-section design. For vertical, angled and horizontal
installation. Mixed-flow hydraulics with reducibles impellers.
The stage casings are connected by means of studs.

Suction casing between pump and motor with suction strainer
as protection of pump against coarse impurities of the liquid
handled.

Pump endat choice withnon-return valve orconnection nozzle.
Either design with flanged connection.

Especially suitable for installation in narrow deep wells.

Submersible Borehole Pumps

for Well Diameters

of 400 mm (16 inches) and Above

single-flow and mixed-flow

Designation

B R Z S 535 /5a

Type series
Design status
Minimum well diameter (mm)
Suction impeller
Code for hydraulics (50 Hz)
Number of stages
Impellers reduced

1)

X = 400 mm (16 inches), Y = 450 mm (18 inches),

Z = 500 mm (20 inches), E = 600 mm (24 inches),

F = 650 mm (26 inches)

1)

Certification

Quality management certified to ISO 9001

Product Features

-- Very sturdy design

-- Suitable for installation in narrow deep wells

-- High efficiency

-- Motor designed for maximum pump output

-- Low noise level

-- For vertical or horizontal installation

-- Non-return valve protected against blocking

-- Pre-filled motor without risk of contamination of the pumped
water

87

60 Hz

BSX, BSF

Selection Chart (Ranges on Offer) n ≈ 1750 rpm

700

500

400

300

H

m

200

150

100

80

U.S.gpm

Imp.g.p.m.

1000 1400

1000 1400

BSX 463

2000 3000

BRY 504

2000 3000

BRZS 535

BRE 555

4000

6000 10000

4000 6000 10000

BSF 586

2000

1000

500

400

300

H

ft

60

50

40

30

20

15

10

200 300 400

40 60 80 100

3

/h

500 1000

Q l/s

Q m

200

300 400

200

100

80

60

40

2000 3000

600 800

3430:80

88

60 Hz

BSX, BSF

Materials

Component Execution G Execution B

Pump ...

Casing

Impeller Bronze (G-CuSn10)

Shaft Cr steel (1.4021)

Wear rings Bronze (2.1090)

Bearings

Component Execution G

Motor ...

Shaft Steel (C 45) enclosed
Cast parts Cast iron JL1030 (GG-20)
Stator jacket Steel (St 37)

Cast iron JL1030

(GG-20)

Cr steel (1.4021)

annealed /

special bronze

Bronze (G-CuSn10)

CrNiMo steel

(1.4462)

Alu bronze

(G-CuAl11Ni) /

special bronze

Bearings / Lubrication

Pump:

1 radial plain bearing in suction casing and in bearing bracket
housing resp. in last stage (BSF 586).Dependent on pump size
and number of stages additionally 1 intermediate bearing.
Lubricated by the liquid handled.

Motor:

2 radial plain bearings and 1 thrust bearing with tilting pads for
balancing of axial thrust. Lubricated by the motor fill water.

Direction of Rotation of the Pump

Right-handed, i.e. clockwise rotation
(viewed at the drive shaft end).

Drive

KSB submersible motors DN 300 and above in squirrel-cage
design, three-phase current (3~), 4 poles. For low (U = 1000 V)
and high (U = 6000V) voltage. Water-filled motor. The water fill
lubricates the bearings and cools the windings sealed with
water-tight insulation material. The shaft is sealed by lip seals
protected against ingress of sand or a mechanical seal.
Pressure differences between motor and environment are
equalized by a rubber expansion diaphragm in the motor.

Construction complies with VDE regulations.

Electrical Connection

The motors are equipped ex works with 2 short cables.
Generally with earthing.

Connection of extension cable by means of a waterproof cable
connector. At choice connection of the complete cable length
direct at the winding in the submersible motor.

Short cable and extension cable for low voltage (U ≤ 1000 V)
in food quality.

Starting Methods

Low voltage (U ≤ 1000 V): direct on line (without or with starting
transformer as well as with smooth running device) and
star-delta.

High voltage (U > 1000 V): only direct on line.

Application Temperatures

The submersible units are so designed as to allow also
operation without additional cooling in the motor area, e.g.
installation in a deep well, in a big tank etc. (the liquid handled
does not stream directly along the motor).

With additional cooling, e.g. installation in the deep well above
the filter area, execution with cooling shroud etc. (the liquid
handled streams along the motor with v ≥ 0.5 m/s), the
submersible units can be used in water of elevated
temperatures (additionally 5

°

C and more).

Pump End (Discharge Nozzle)

Flange DN 200 up to DN 400 dependent on pump size.

Coating (Standard)

Quality 2-component high-build coating...........

(epoxy resin base), approved for

drinking water contact

Structure Primer and top coat.........

Thickness of coat 100 to 150

Colour ultramarine blue (RAL 5002)............

µm..

Mode of Installation

Generally vertical installation. Dependent on number of stages
and the motor size also horizontal installation possible.

Designs on Request

-- other material designs

-- higher temperatures of liquid handled

-- higher voltages until 6600 V

-- other frequencies

-- more wear resistant design

-- with cooling, suction or pressure shroud

-- special coating

-- motor in special design (solidly/sealed against high
pressure, flameproof, etc.)

89

Design Features

The non-return valve with double­guided valve plate

-- No jamming or canting.

-- With valve plate spring loaded.
Thus allows minimum closing-times
and avoids consequently
waterhammers.

The steadfast wear rings

-- Replaceable rings (standardly with
casing and impeller wear ring) out of
wear- and corrosion-resistant metal.

-- They protect against gap wear and
allow easy servicing.

Stainless steel union elements

-- All screws and nuts of superior alloy
steel (CrNiMo).

-- That is a guarantee for a high degree
of functional reliability and a
considerably simplified dismantling.

60 Hz

BSX, BSF

The coating and the cable in food
quality (BAM)

-- For use without any problems in
drinking water area.

1) German federal inst. for materials
research

The enclosed pump bearing

-- Maintenance-free and extensively
protected against wear.

-- Long-term operation without
problems.

The mixed-flow impellers

-- Reducibles. Thus caused optimum
adaptation to need of pump heads.

-- With keys for reliable power
transmission and simplified
dismantling and mounting.

The pump shaft out of stainless
steel

-- Completely protected by means of
sleeves against direct wear
caused by the liquid handled.

1)

The counter thrust bearing

-- It balances the negative axial thrust.

-- Thus it prevents reliably butting of the
impellers against the stage casings.

The proven thrust bearing

-- Water-lubricated plain bearing with
self-adjusting tilting pads.

-- This allows absolutely
maintenance-free operation and
maximum loads under continuous
duty conditions.

The motor KSB

-- Acc. to VDE standards, i.e. a high
level of electric safety.

-- Designed for max. possible pump
power consumption and thus
protected against overload.

The dynamically balanced rotor

-- It ensures an optimum quietness
of running.

The reliable pressure balancing
system

-- Optimum design of rubber
diaphragm.

-- Therefore largest possible
immersion depths.

3411:11

90

60 Hz

Applications

Handling clean and raw water in applications such as:

-- general water extraction / supply,

-- irrigation and spray irrigation,

-- lowering and maintaining ground water levels in open-cast
mines,

-- dewatering and gallery drainage in underground mines.

Use in pressure-boosting and sprinkler systems, as well as for
offshore and cavern applications, etc.

Permissible sand content in the fluid handled: 50 g/m

3

.

Operating Data

Capacity Q up to 2200 m3/h (612 l/s...................

or up to 10,000 US GPM)

Head H up to 1500 m......................

Supply voltage U up to 6600 V..............

o

Temperature of fluid handled t up to +40

Speed n 3500 rpm and 1750 rpm.....................

C..

UPZ

Submersible Borehole Pumps

for Well Diameters

of 500 mm (20 inches) and Above

Double entry, back-to-back impeller arrangement

Design

Multistage, double-entry ring-section pump with back-to-back
impeller arrangement. For vertical installation. Radial and
mixed-flow hydraulic systems with impellers that can be turned
down.

Half the flow enters the pump through thelower suction casing,
the other half through the upper suction casing. The upper half
of the pump unit is surrounded by a pump shroud (outer shell).
The two flows are collected by the channel created by the
shroud and carried into the upper suction casing, which is
equipped with two discharge branches. This design
theoretically ensures full axial thrust balancing. The casing
components (stage casings) are connected by means of round
tie bolts. The two suction casings are equipped with strainers
to protect the pump from coarse particles in the fluid. Flanged
pump end. Check valve with flanged end available on request.

Particularly suitable for installation in narrow deep wells.

Pump Designation (Example)

160 -- 228 / 8

Type series
Capacity Q
Nominal impeller diameter (mm)
Number of stages

opt

(l/s)

UPZ

Certification

Quality management certified to ISO 9001

91

60 Hz

UPZ

Selection Chart (Ranges on Offer) n ≈ 3500 rpm and n ≈ 1750 rpm

2000

1500

1000

H

m

500

400

300

200

U.S.gpm

Imp. g. p. m.

200

UPZ ...

500 1000

n = 1450 1/min

n = 2900 1/min

2000500 1000

2000

5000

10000

5000

6000

5000

4000

3000

2000

H

ft

1000

800
700

600

150

100

50

40

50 100

20

Note: The diagram shows the ∆QArange on offer. The pumps can be offered for any duty point within this flow range.

92

Q m3/h

200 300 400 500

1005030

Q l/s

1000

500300200

2000

3470:1

500

400

300

200

60 Hz

UPZ

Materials

The choice of materials depends on the capacity and
discharge head.

Component

Pump

Casing Cast iron (GJL-200)

Nodular cast iron (GJS-600)
Bronze (CuSn10)
Aluminium bronze (CuAl10Ni)
CrNi steel

Impeller/
Diffuser

Shaft CrNi steel (1.4057)

Wear ring Aluminium bronze (CuAl10Ni)

Bearings Chrome steel (1.4021), hard chrome

Screws, bolts
and nuts

Motor

Shaft Steel (1.0503+N), protected
Cast parts Cast iron (GJL-200)

Stator case St 37, CrNiMo steel
Screws, bolts

and nuts

1)

in contact with fluid handled

Bronze (CuSn10)
Aluminium bronze (CuAl10Ni)
CrNi steel

CrNiMo steel (1.4462)

CrNiMo steel

plated / special bronze or other
special materials

CrNiMo steel

1)

Bronze (CuSn10)
Aluminium bronze (CuAl10Ni)
CrNi steel

CrNiMo steel

1)

Coating (Standard)

For cast iron models only.

Quality 2-component high-build coating..............

(epoxy resin base), approved for

drinking water contact.

Coating structure Primer and top coat.....

Film thickness 100 to 150

Colour ultramarine blue (RAL 5002)..............

µm.......

Type of Installation

In general, the pumps are installed vertically.

Drive

KSB submersible squirrel-cage motor, 2 or 4 poles.
Three-phase current (3~).

For supply voltages up to U = 6600 V. Water-filled motor. The
water fill lubricates the bearings and cools the windings sealed
with water-tight insulation material. Internal cooling circuit. The
shaft is sealed by lip seals or a mechanical seal protected from
ingress of sand. Pressure differences between motor and
environment are equalized by a rubber expansion diaphragm
in the motor.

Motor design is in compliance with VDE regulations.

Connection to Power Supply

The motors are supplied ex factory with 1 or 2 motor leads.
Any extension cables required are connected using cable

connectors. On request, the entire length of cable required can
be connected to the motor at the factory. All motor sizes are
available either with or without earth conductor.

Bearings / Lubrication

Pump:

1 radial plain bearing in each suction casing. Depending on the
pump size and number of stages, 1 additional intermediate
bearing each in the two pump halves. Lubricated by the fluid
handled.

Motor:

2 radial plain bearings. Residual axial thrust is balanced by 1
self-aligning tilting-pad thrust bearing in the motor (lower end).
Lubricated by the motor’s water fill.

Direction of Rotation of the Pump

Clockwise rotation (when looking at the drive shaft end).

Pump End (Discharge Nozzle)

With DN 200 to DN 350 flanges to DIN 2526 and 2512,
depending on the pump size.

Starting

Low voltage(U ≤ 1000 V): d.o.l.(without orwith autotransformer
/ with or without soft starter) and star-delta (Y-∆)starting.

High voltage (U > 1000 V): d.o.l starting only.

Variants Available on Request

-- Other materials

-- Higher fluid temperatures

-- More wear-resistant designs

-- Models with cooling or pump shroud

-- Special coating

-- Special explosion protection up to 6 kV

93

Design Features

60 Hz

UPZ

Robust wear rings

-- Replaceable wear rings made of
wear- and corrosion-resistant metal.

-- Protection against wear in the
clearance; easy servicing.

Pump shroud

-- Slim, low-weight design.

-- High operating reliability because of
simple sealing of high-pressure
section.

Impellers

-- Can be turned down.

-- This means pump performance can be
matched exactly to head requirements
in the system.

Stainless steel union elements

-- All wetted bolts, screws and nuts are
made of CrNiMo steel.

-- High operating reliability.

Enclosed pump bearing

-- No--maintenance design, high wear
resistance.

-- For trouble-free long-term operation.

Stainless steel pump shaft

-- Fully protected by impeller hubs and
sleeves from direct wear caused by
the fluid handled.

Double-entry design with impellers in
back-to-back arrangement

-- Low wear thanks to low velocities in
the pump and use of special
materials.

-- Designed to ensure full hydraulic
thrust balancing, irrespective of any
wear in the sealing clearances.

-- Considerably reduced load on the
thrust bearing.

-- This allows high discharge heads at
relatively large flow rates.

Wear-resistant mechanical seal

-- Long service life and high operating
reliability.

Motor can be filled with drinking water

-- Simply top up whenever needed.

Winding insulation (J2)

-- Cu--VPE--PA material makes for maximum
heat resistance.

Tried and tested thrust bearing

-- New materials combination (stainless steel /
carbon) for high safety factor.

Sealing elements

-- All joints sealed by O-rings. Pressure--proof
up to a differential pressure of 16 bar.

Circulation cooling through double
shroud

-- Low temperature rise

High efficiency η

-- Reduced operating costs thanks to
optimized windings.

Optimized cooling pump

-- No peak temperatures.

Reliable pressure balancing system

-- Optimum selection thanks to
generously sized rubber diaphragm.

-- Enables installation at very low
depths.

M

94

Typical Tender for S 100D

Q

p

No. Quan-

tity

Submersible borehole pump(s) type S 100D

for well diameters of 100 mm (4 inches) and above

Make: KSB

Pump + motor: S 100D -- / + kW...... ..... ..............

Multistage centrifugal pump for vertical / angled / horizontal1)installation. Inte­grated, check valve with double-guided valve disc. Plain bearing lubricated by
the fluid handled and protected against ingress of sand. Discharge nozzle with
threaded end.
Submersible canned motor for three-phase current, with self--aligning thrust
bearing, expansion diaphragm for pressure equalization and cable kit

1.5 / 2.5
Max. permissible submergence below maximum water level: 350 m.
Fluid handled: clean or slightly contaminated water with a permissible sand
content of up to 50 g/m

Outer pump casing, suction casing and

check valve housing CrNi steel........................

Stage casing (diffuser) glass fibre reinforced NORYL.....................

Impellers glass fibre reinforced NORYL.................................

Shaft (pump) Chrome steel.............................

Bearing (pump) Rubber...........................

Motor (shaft and housing) CrNi steel..................

Capacity Q =
Head H =
Temperature (fluid handled) t =
Rated power (motor) P
Speed / Frequency n
Voltage / Starting U =
Pump end G 1
Outside diameter D
Pump set length / weight L

Adapter from G 11/4’’ to R 11/2’’ .
Adapter from threaded end G
Pair of supporting and installation clamps for risers

R1
Cooling shroud with suction strainer and pedestals for horizontal

installation.

1)

m power supply cable.

...............

1

/4’’ (DN 32) / R2’’ (DN 50)1).

Submersible Borehole Pumps60 Hz

Item Unit price

Euro Euro

3

!

m3/h / l/s................

m...................

o

C

N=

¶ rpm/f= Hz.......

kW / hp......

V / d.o.l..........

max

A

1

/4’’ (DN 32) / 2’’ (DN 50)

= mm.........

¶ mm / GA¶ kg..

1)

to flanged end DN .

Amount

Power supply cable x mm2, separate/connected1), length m.

1)

Cable connector, separable / non-separable
motor supply cable not connected and sealed/connected and sealed

, with sealing compound,

1)

at the factory.

Cable tie
UPA CONTROL box for 3 µ/ 400 V with thermal overcurrent relay with phase

failure protection, temperature-compensated, insulating enclosure, with
3 electrodes and integrated ”Dry running protection” / ”Water level control”
selector switch.

Motor contactor for 1 µ/ 230 V with ON/OFF switch for automatic operation,
insulating enclosure.

Dry running protection equipment:

-- f o r semi-automatic operation with 2

-- f o r fully automatic operation with 3

1)

1)

control current lines with a length of m each.

Lightning protection with earthing terminal for 3
Automatic control unit Controlmatic E / Cervomatic EDP

µ 400 V.

1)

.

Sum total

1)

Delete as applicable

95

Typical Tender UPA 100C

p

No. Qty Item

Submersible borehole pump(s) type UPA 100C for well diameters of

100 mm (4 inches) and above.

Marke: KSB
Pump + motor: UPA 100C -- / +

Multistage centrifugal pump for vertical / angled / horizontal1)installation.
Components ofstainless steel witha minimum wallthickness of 1 mm andvanes
welded at 6 points. Integrated check valve. Generously dimensioned plain
bearing lubricated by the fluid handled. Discharge nozzle with threaded end.

Submersible canned motor for three-phase current, with self--aligning thrust

1)

Delete as applicable

bearing, expansion diaphragm for pressure equalization and cable kit

1.5 / 2.5
Max. permissible submergence below maximum water level: 350 m.

Fluid handled: clean or slightly contaminated water with a permissible

Suction and discharge casing CrNi steel...............

Diffusers CrNi steel.................................

Impellers CrNi steel.................................

Shaft (pump) CrNi steel.............................

Bearing (pump) Rubber...........................

Motor (shaft and housing) CrNi steel..................

Capacity Q =

Head H = m......................

Temperature (fluid handled) t = °C...

Rated power (motor) PN= kW / hp.........

Speed / Frequency n ≈ rpm/f= Hz..........

Voltage / Starting U = V/ direct............

Pump end Rp 11/2’’ (DN 40) / 2’’ (DN 50)
Outside diameter D

Pump set length / weight LA≈ mm/GA≈_____kg.....

Adapter from G to DN .

Pair of supporting and installation clamps

for risers Rp 1

Power supply cable x mm2, separate / connected1),

Cable connector,separable / non-separable

supply cablenot connected and sealed /connected and sealed

Cable tie
UPA CONTROL box for 3~ / 400 V with thermal overcurrent relay with phase

failure protection, temperature-compensated, insulating enclosure, with 3 elec­trodes and integrated ”Dry running protection” / ”Water level control” selector
switch.

Motor contactor for 1~ / 230 V with ON / OFF switch for automatic operation,
insulating enclosure.

Dry running protection equipment:

-- f o r semi-automatic operation with 2

-- f o r fully automatic operation with 3
control current lines with a length of m each.

Lightning protection with earthing terminal for 3~ 400 V.

1)

m power supply cable.

sandcontentofupto50g/m

..................

1

/2’’ (DN 40) / R2’’ (DN 50)1).

length m

max

60 Hz Submersible Borehole Pumps

Unit price Amount

3

.

m3/h / l/s...................

1)

= mm............

1)

, withsealing compound,motor

1)

1)

1)

at thefactory.

Sum total

96

Typical Tender UPA 200, 200B, 250C

p

No. Qty Item

Submersible Borehole Pumps60 Hz

Unit price Amount

Submersible borehole pump(s) type UPA 200 / 200B / 250C
for well diameters of 200 mm (8 inches) and above.

Make: KSB
Pump + motor: UPA -- / +

Multistage centrifugal pump in ring-section design for vertical / horizontal
installation. Radial ormixed-flow hydraulic systems with impellers thatcan be turned
down. Pump bearing lubricated by the fluid handled and protected against ingress of
sand. Integrated check valve with anti-blockage, spring-loaded valve disc /
connection branch. Pump end with internal thread / flange
suction strainer fitted between pump and motor.

Pre-filled submersible motor. Three-phase current. Squirrel-cage design with
self-aligning thrust bearing and adequately sized expansion diaphragm for pressure
equalization. Designin compliance with VDE standards.IP 68 enclosure.With power
supply cables. Required flow velocity past the motor: v ≥ 0.5 m/s.

Fluid handled: clean to slightly contami nated water, slightly aggressive / more

Casings cast iron / bronze
Impellers glass fibre reinforced NORYL/ bronze

Wear rings bronze.........................

Shaft (pump + motor) Chrome / CrNiMo steel
Stator case (motor) CrNi / CrNiMo steel

Bolts, screws and nuts CrNiMo steel (A4--70)...............

Capacity Q =
Head H =
Shut-off head H
Efficiency η Pump
Temperature (fluid handled) t =
Rated power / amperage P
Speed / Frequency n ≈
Supply voltage U =
Starting d.o.l. / star-delta
Pump end G3’’ (DN 80) / G5’’ (DN 125) / G6’’ (DN 150)
Outside diameter D

Economic efficiency analysis (for ex. for 10 years):
Operating period per year approx.

Electricity costs

1. Duringthe acceptance test, the overall efficiencymay be max.3 percentage points
lower than the overall efficiency quoted (η ”pump” x η ”motor”).

Adapter, from threaded end G to flange DN standard / special1).
Pair of supporting and installation clamps for riser R / DN
Set of bearing p edestals for horizontal installation without / with

tank.

Power supply cable, separate/connected1), mm2, length m.
Cable connector, size

and sealed / connected and sealed

Cable tie,size

Dry running protection equipment

-- f o r semi-automatic operation with 2

-- f o r fully automatic operation with 3
control current lines with a length of m each.

Temperature monitoring equipment Pt 100 for use in submersible motors to
protect the windings from overheating; it consists of a resistance thermometer with
measuring line and does not include / includes

1) Delete as applicable

aggressive / as specified in water analysis

sandcontentofupto50g/m

............................

...........................

................

..................

= m.................

o

= hp / IN= A.......

N

.........................

....................

max

/kWh. Pump data tolerances to ISO 9906 Class

, withsealing compound, motor supply not connected

1)

at the factory.

.

1)

1)

1)

. Suction casing with

1)

3

.

, with a permissible

1)

(UPA 200/200B) / bronze (UPA 250C)

1)

1)

m3/h / l/s.....................

m........................

%/Motor %....................

°

C.....

rpm/f= Hz............

V................

1)

= mm..............

h/

1)

1)

water storage

1)

1)

a display unit.

1)

1)

1)

.

Sum total

97

Typical Tender for UPA 300, 350

p

No. Qty Item

60 Hz Submersible Borehole Pumps

Unit price Amount

1)

Delete as applicable

Submersible borehole pump(s) type UPA 300 / 350

1)

for well diameters of 300 mm (12 inches) and above.

Make: KSB
Pump + motor: UPA -- / +

Multistage centrifugal pump in ring-section design for vertical / horizontal1)installa­tion. Mixed flow hydraulic systems with impellers that can be turned down. Pump
bearing lubricated by the fluid handled and protected against ingress of sand. Inte­grated check valve with anti-blockage, spring-loaded valve disc / connection
branch. Pumpend with internal thread / flange

1)

. Suctioncasing with suction strainer

fitted between pump and motor.
Pre-filled submersible motor. T hree-phase current. Squirrel-cage design with self-

aligning thrust bearing and adequately sized expansion diaphragm for pressure
equalization. Designin compliance with VDE standards.IP 68 enclosure.With power
supply cables. Required flow velocity past the motor: v ≥ 0.5 m/s.

Fluid handled: clean to slightly contami nated water, slightly aggressive / more

aggressive / as specified in water analysis

sandcontentofupto50g/m

Casings cast iron / bronze

.....................................

3

.

1)

, with a permissible

1)

Impellers bronze....................................

Wear rings bronze..................................

Shaft (pump + motor) Chrome / CrNiMo steel

.........................

1)

Stator case (motor) CrNiMo steel...........................

Bolts, screws and nuts CrNiMo steel (A4)........................

Capacity Q =
Head H =
Shut-off head H

= m.................

o

Efficiency η Pump
Temperature (fluid handled) t =
Rated power / amperage P

= hp / IN= A.......

N

Speed / Frequency n ≈
Supply voltage U =
Starting d.o.l. / star-delta
Pump end G6’’ / G8’’ / DN 150 / DN 200 / DN 250
Outside diameter D

.........................

....................

max

= mm..............

m3/h / l/s.....................

m........................

%/Motor %....................

°

C.....

rpm/f= Hz............

V................

1)

1)

Economic efficiency analysis (for ex. for 10 years):
Operating period per year approx.

Electricity costs

/kWh. Pump data tolerances to ISO 9906 Class 1.

h/

During the acceptance test, the overall efficiency may be max. 3 percentage points
lower than the overall efficiency quoted (η ”pump” x η ”motor”).

Pair of supporting and installation clamps for riser R / DN1). .
Set of bearing pedestals for horizontal installation without / with

Power supply cable, separate / connected1), mm2, m length.
Cable connector, size

and sealed / connected and sealed

Cable tie,size

Dry running protection equipment

-- f o r semi-automatic operation with 2

-- f o r fully automatic operation with 3
control current lines with a length of m each.

Temperature monitoring equipment Pt 100 for use in submersible motors to protect the
windings from overheating; it consists of a resistance thermometer with measuring line and
does not include / includes

, with sealing compound, motor supply not connected

1)

at the factory.

.

1)

1)

1)

a display relay.

1)

water storage tank.

Sum total

98

Submersible Borehole Pumps60 Hz

99

60 Hz

(

)

Submersible Motors

Submersible Motors for Well Diameters DN 100, 150, UMA 150D, 200D, 250D and 300D
of 100 mm (4 inches) and above

Sizes / Connection

DN 100, DN 150, UMA 150D, UMA200D: NEMA standard
UMA 250D, UMA 300D: KSB standard

Material Variants (Material specifications to EN)

DN 100

Component G (Standard)
All components CrNi steel

DN 150

Component G (Standard)
Shaft CrNi steel
Bearing carrier Cast iron (JL1030)

4)

Stator case CrNi steel

UMA

Compo-

G (Standard) C1 (Special) C3 (Duplex)

nents
Shaft

CrNi steel

(1.4305

2)

)

CrNiMo steel

(1.4462

2)

CrNiMo steel

)

(1.4462)

CrNiMo steel(1.4462)

Housing Cast iron

(JL1030

JL 1040

Stator
case

Screws,
bolts and

3)

nuts

2)

UMA 150D motors only

3)

Wetted by fluid pumped.

5) 6)

CrNi steel

(1.4301)

CrNiMo steel

4)

/

)

(A4-70)

CrNiMo steel

(1.4408 /

1.4409

1.4517

2)

5)

)

CrNiMo steel

(1.4571 /

5)

1.4462

)

4)

DIN mat. code: GG-20

5)

UMA 300D motors only

6)

DIN mat. code: GG-25

CrNiMo steel

/

CrNiMo steel

CrNiMo steel

(1.4539 /

1.4517

( 1.4539 /

5)

1.4462

( 1.4539 /

5)

1.4462

5)

)

)

)

Bearings / Lubrication

Two radial plain bearings as well as a thrust bearing to balance
the pump’s axial thrust.
Lubrication by motor fill liquid.

Direction of Rotation of the Motor

Anti-clockwise rotation (when looking at the drive shaft end).

Variants Available on Request

-- DN 100: Other supply voltages up to 500 V

-- UMA 150D -- 300D: Other supply voltages up to 1000 V
Part No.

145 Adapter
354 Thrust bearing housing

382.51/52 Bearing carrier (bottom) / (top)
384/387 Thrust bearing plate / segment
389 Counter thrust bearing ring
433 Mechanical seal
59-12 Membrane
529/545.51 Bearing sleeve / Bearing bush
81-59 Stator with windings
818 Rotor
828/829.51 Cable grommet / Cable gland ring

100

Description

940.52
271

160.52

900.52
145

901.51

550.52

914.52
529

382.52

818

529

900.51
384

412.52

914.51

550.51

59--6

904.52
381

904.51
553
354

484

160.51

500.51

e.g. UMA 250 D

433

412.53

914.53

550.53
723

710
829
828

829
504

932.52

545

81--59
23--2

814
545

382.51

940.51
389

932.51

412.51
387
32--2

392
903

59--42

920.51

916.51
59--12

950

500.52