KSB Pumps

KSB - Movitec A PumpDrive-vertical, high-pressure centrifugal pump

Design

KSB-MovitecPumpDriveKSB – Movitec A PumpDrive

Multistage, vertical, high-pressure centrifugal pump in ring-section design with suction and discharge nozzles of identical nominal diameters arranged opposite to each other (in-line design), close-coupled. ATEX-compliant version available.

 

Applications

Spray irrigation, irrigation, washing, water treatment, fire-fighting and pressure booster systems, hot water and cooling water recirculation, boiler feed systems etc.
Sizes
6 (LHS), 45, 65

Overview of technical data

Type of bearing Plain bearings
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor
Drive voltage Low voltage
Type of first impeller Radial
Other impeller types Radial
Type of installation In- line
Type of coupling Direct
Type of lubrication Oil / Product lubrication
Max. permissible fluid temperature 120 °C
Pump set location Dry installed
Stage casing material (EN standard) 1. 4301;1.4404
Suitable for drinking water Yes
Type of stage casing Stage casing with diffuser
UNSPSC classification 4015150300
Casing material (EN standard) 1. 4301;1.4401;JL1040
eClass assignment 36410101
Maximum head 401, 00 m
Installation position Vertical
Shaft seal type Mechanical seal
Main applications Industry and process engineering; Water;Building services
Casing material Chrome nickel steel
Maximum discharge-side pressure 40 bar
Maximum drive rating 45 kW
Type of installation Stationary
Maximum flow rate 75 m³/h
Maximum speed of rotation 2. 900 1/min

 

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KSB-Rio C Hot water heating systems and heat recovery systems

 

 

KSB-Rio C Hot water heating systems and heat recovery systems

 

Design

Maintenance-free, glandless wet rotor pump, screw-ended, with three speed levels.

 

KSB-RIO-C-Dim

Applications

Hot water heating systems, heat recovery systems and cooling circuits in air-conditioning systems.

KSB-RIO-C-CURV

 

Overview of technical data

Type of bearing Plain bearings
Drive Electric motor
Drive frequency 50 Hz
Type of drive Electric motor
Drive voltage Low voltage
Connection to power supply 230 V, 1~
Impeller material (EN standard) KUNSTSTOFF
Type of installation In- line
Type of coupling None
Type of lubrication Oil / Product lubrication
Max. permissible fluid temperature 110 °C
Nozzle position In- line
Maximum rated pressure (discharge) PN 10
Pump set location Dry installed
Shaft material (EN standard) EDELSTAHL X40 CR13
Suction characteristics Non- priming
Suitable for drinking water Yes
Type of casing Volute casing
Type of impeller Closed / Radial;Closed
Type of connection Thread
UNSPSC classification 4015150300
Casing material (EN standard) EN- GJL-200
eClass assignment 36410101; 36410100;36410000;36410105
Maximum head 5, 60 m
Minimum head 0, 25 m
Installation position Any
Shaft seal type Seal- less
Main applications Building services; Water
Casing material Cast iron
Maximum discharge-side pressure 10 bar
Maximum drive rating 0. 10 kW
Type of installation Stationary
Maximum flow rate 3, 60 m³/h
Maximum speed of rotation 2. 200 1/min

 

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KSB - Etanorm GPV / CPV Single-stage volute casing pump,for vertical installation in closed tanks under atmospheric pressure

Design

KSB – Etanorm GPV / CPV
Single-stage volute casing pump, ratings to EN 733, for vertical installation in closed tanks under atmospheric pressure. Up to an immersion depth of 2000 mm.

 

Applications

Handling of neutral degreasing and phosphatizing solutions, wash water with degreasing agents, dipping paints, etc.

 

 KSB-Etanorm GPV-W-CPV-W-modularSectional drawing

1 Motor housing 2, 3 Rolling element bearings
4 Motor stool 5 Cover plate
6 Shaft 7 Overflow opening
8 Intermediate pipe 9 Shaft passage
10 Casing cover 11 Impeller
12 Suction nozzle 13 Discharge nozzle
14 Riser 15 Volute casing
16 Clearance gap

 

 

 

 

 

 

 

 

 

 

 

To transport the pump/pump set suspend it from the lifting tackle as shown below.

KSB-Etanorm GPV-W-CPV-W.dia

 

 

 

Fig. 1: Transporting the pump set without/with cover plate up to motor size 160

 

KSB-Etanorm GPV-W-CPV-W-hor

 

Fig. 2: Transporting the pump set without/with cover plate up to motor size 160 for
larger installation depths

 

Overview of technical data

Type of bearing Rolling element bearings
Casing partition Radially split
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor
Drive voltage Low voltage
No. of impeller entries Single entry
Maximum submergence 535 mm
Impeller material (EN standard) 1. 4408;JL 1040
Type of coupling Direct
Type of lubrication Grease lubrication
Max. permissible fluid temperature 70 °C
Nozzle position Variable
Maximum rated pressure (discharge) PN 10; PN 16
Pump set location Wet well
Shaft material (EN standard) 1. 4462;C45+N
Standard EN 733
Suction characteristics Non- priming
Top plate Yes
Type of casing Volute casing
Type of impeller Radial; Closed
Type of connection Flange
Casing material (EN standard) 1. 4408;JL 1040
eClass assignment 36410101; 03641000;36410100
Maximum head 100, 00 m
Minimum head 1, 50 m
Installation position Vertical
Shaft seal type Shaft seal ring
Main applications Industry and process engineering; Waste water / sewage
Casing material Cast iron; Stainless steel
Maximum discharge-side pressure 10 bar
Maximum drive rating 90 kW
Type of installation Stationary
Maximum flow rate 750 m³/h
Minimum flow rate 3 m³/h
Maximum speed of rotation 3. 500 1/min

 

 

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KSB Amacan K - Submersible motor pump with non-clogging impeller

 

 

Design

KSB-Amacan K-ModularKSB Amacan K – Wet-installed submersible motor pump with non-clogging impeller, singlestage, single-entry, for installation in discharge tubes, explosion protection to ATEX II G2 T3.

 

 

 

 

 

 

 

 

 

Applications

Handling of pre-cleaned, chemically neutral waste water, industrial effluents and sewage, fluids not containing any stringy substances pre-treated by screens and sills, as waste water, mixed water and activated sludge pump in effluent treatment plants, irrigation and drainage pumping systems.

Function

KSB-Amacan K-instThe fluid enters the pump axially via the inlet of the pump casing (1) and is
accelerated outward in a radial flow by the rotating impeller (2). The required energy
is transmitted from the electric motor (7) to the impeller (2) via the shaft (4). In the
pump casing (11) the kinetic energy of the fluid is converted into pressure energy.
The rotational movement diverts the fluid flow in axial direction. The casing wear
ring (12) prevents any fluid from flowing back from the casing into the inlet of the
pump casing. At the rear side of the impeller, the shaft enters the casing via the
discharge cover (3). The shaft passage through the discharge cover is sealed towards
the fluid by a shaft seal (10). The shaft runs in rolling element bearings (5 and 8),
which are supported by a bearing housing (9) and a bearing bracket (6).

 

 

Standard

KSB-Amacan K-Diagram Temperature monitoring of the motor
▪ Temperature monitoring at the lower bearing
▪ Leakage monitoring of the mechanical seal system
▪ Leakage sensors in the motor/connection space

 

 

 

 

 Flamepaths for explosion-proof motors

KSB-Amacan K-Explosion proof

 

 

 

 

 

 

 

 

 

 

Overview of technical data

Type of bearing Rolling element bearings
Casing partition Radially split
Drive Electric motor
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor
Drive voltage Low voltage
Connection to power supply 380 V, 400 V, 690 V, 3~
Explosion protection ATEX II 2G T3
No. of impeller entries Single entry
Impeller material (EN standard) 9. 4460;JL 1040
Type of installation Close- coupled
Type of coupling None
Type of lubrication Grease lubrication
Max. permissible fluid temperature 40 °C
Nozzle position In- line
Pump set location Wet well
Shaft material (EN standard) 1. 4021QT700;C45+N;1.4057
Suction characteristics Non- priming
Type of casing Tubular casing
Type of impeller Multi- vane impeller;Radial;Closed
Casing material (EN standard) JL 1040
eClass assignment 36410103; 36410100;36410000
Free passage 180 mm
Maximum head 30, 00 m
Minimum head 1, 00 m
Installation position Vertical
Shaft seal type Mechanical seal
Main applications Water; Waste water / sewage;Mining / Dredges
Casing material Cast iron
Maximum drive rating 320 kW
Type of installation Stationary
Maximum flow rate 7. 200 m³/h
Minimum flow rate 140 m³/h
Maximum speed of rotation 1. 200 1/min

 

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KSB-KWP-Bloc Horizontal, radially split volute casing pump with various impeller types

 

 

Design

KSB-KWP-Bloc Horizontal, radially split volute casing pump with various impeller types

Horizontal, radially split volute casing pump in closecoupled design, single-stage, single-entry, available with various impeller types: non-clogging impeller and free-flow impeller.

The hydraulic system and the motor are firmly connected and form a close-coupled
unit. Impeller (7) and motor (10) are arranged on a common shaft (5)

KSB-KWP-Curves

Applications

Handling of pre-treated sewage, waste water, all types of slurries without stringy substances and pulps up to 5 % bone dry with a maximum density of 1.1 kg/dm3.

 

 

 

 

Function

The steadily rotating impeller (7) of the centrifugal pump transfers mechanical
energy to the fluid passing through.

KSB-KWP-Bloc-ModularThe fluid enters the pump axially via a suction nozzle (6) and is accelerated outward
in a cylindrical flow by the rotating impeller (7). The flow profile of the pump casing
converts the kinetic energy of the fluid into pressure energy. The fluid leaves the
pump via the discharge nozzle (2).
The casing is fitted with a replaceable wear plate (1). The diagonal clearance gap
prevents frequent deviation of the flow in the clearance gap heading in the direction
of the suction nozzle. This ensures a longer service life if solids-laden fluids are
handled.
The casing is closed by a discharge cover (3). The shaft (5) enters the casing via this
discharge cover. A shaft seal (8) provides reliable sealing towards the atmosphere.
The shaft is supported by oil-lubricated rolling element bearings (9). The motor (10) is
connected to the casing via an intermediate lantern (4)

 

 

Overview of technical data

Type of bearing Rolling element bearings
Casing partition Radially split
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor
Drive voltage Low voltage
No. of impeller entries Single entry
Impeller material (EN standard) ERN; NORIDUR 1.4593
Type of installation Close- coupled
Type of coupling Direct
Type of lubrication Grease lubrication
Max. permissible fluid temperature 100 °C
Nozzle position End suction
Maximum rated pressure (discharge) PN 10
Pull-out design Yes
Pump set location Dry installed
Shaft material (EN standard) 1. 4021;1.4462
Suction characteristics Non- priming
Type of casing Volute casing
Type of impeller Closed; Multi-vane impeller;Free flow impeller;Radial
Type of connection Flange
Casing material (EN standard) NORIDUR 1. 4593;JL 1040
eClass assignment 36410000; 36410100;36410103;36410101
Free passage 70 mm
Maximum head 100, 00 m
Minimum head 2, 00 m
Installation position Horizontal or vertical
Shaft seal type Mechanical seal
Main applications Industry and process engineering
Casing material Duplex steel; Cast iron
Maximum discharge-side pressure 10 bar
Maximum drive rating 22 kW
Type of installation Stationary
Maximum flow rate 330 m³/h
Minimum flow rate 4 m³/h
Maximum speed of rotation 3. 500 1/min

 

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KSB-Etaseco Seal-less volute casing pump in back pull-out design with fully

 

 

Design

KSB-Etaseco Horizontal / vertical, seal-less volute casing pump in back pull-out design with fully enclosed canned motor

KSB-etaseco-mudular copyLow noise emission, with radial impeller, singlestage, single-entry, pump casing connecting dimensions to EN 733.

 

 

 

 
Applications

Handling of aggressive, flammable, toxic, volatile, or valuable liquids in the chemical and petrochemical industry, in environmental engineering and the general industry.

 

Drive

KSB-Etaseco-CurvesThree-phase, asynchronous canned motor, enclosure IP 55,
without explosionproof status. Thermal motor protection by
means of PTC thermistors. The motor design is in accordance
with IEC 60 034 (DIN VDE 0530).

 

 

 

 

 

Overview of technical data

Type of bearing Plain bearings
Casing partition Radially split
Drive IEC standardized motor
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor
Drive voltage Low voltage
Connection to power supply 220/ 400/690 V, 3~
No. of impeller entries Single entry
Impeller material (EN standard) JL1040; JS1025
Type of installation Close- coupled
Type of coupling Direct
Type of lubrication Oil / Product lubrication
Max. permissible fluid temperature 140 °C
Nozzle position End suction
Maximum rated pressure (discharge) PN 16
Pull-out design Yes
Pump set location Dry installed
Shaft material (EN standard) 1. 4021
Suction characteristics Non- priming
Type of casing Volute casing
Type of impeller Multi- vane impeller;Closed;Closed / Radial;Radial
Type of connection Flange
Casing material (EN standard) JS1025; JL1040
eClass assignment 36410100; 36410101;36410000
Maximum head 100, 00 m
Minimum head 9, 00 m
Installation position Horizontal or vertical
Shaft seal type Canned motor pump
Main applications Industry and process engineering
Casing material Cast iron; Nodular cast iron
Maximum discharge-side pressure 16 bar
Maximum drive rating 18 kW
Type of installation Stationary
Maximum flow rate 250 m³/h
Minimum flow rate 3 m³/h
Maximum speed of rotation 3. 500 1/min

 

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KSB - HGM-RO High-pressure pumps for reverse osmosis systems

 

 

KSB-HGM-RO high-pressure pump – reliable drinking water treatment in reverse osmosis systems

KSB_HGM_RO-modular

 

Drinking water production in RO systems requires a high-pressure pump of top reliability which provides continuously economical operation. KSB responds to this need with an ideal solution: the HGM-RO high-pressure pump.

 

 

 

 

 

 

High-pressure pumps  HGM-RO High-pressure pumps for reverse osmosis systems need to be able to handle the harsh conditions which prevail in seawater desalination plants.

KSB-HGM-RO-Curves

 

KSB has opted for radially split high-pressure pumps.

Their radially split design makes HGM-RO high-pressure pumps particularly robust, enabling them to cope with the extreme conditions of drinking water treatment in seawater desalination.

 

 

 

Benefits of using KSB’s radially split high-pressure pumps in reverse osmosis systems:

HGM-RO-Radially-split-designMinimum energy input, low operating costs

Excellent NPSH value thanks to axial inflow with suction stage impeller. Continuously high efficiencies.

 

Compact design

Internal, product-lubricated plain bearings with a short bearing span ensure smooth running and therefore high pump availability and reliability as well as a long service life of wear parts.

 

Corrosion-resistant design

The HGM-RO high-pressure pump is made of duplex or super duplex stainless steels. Its corrosion-resistant design (e.g. dry shaft) translates into a long service life.

KSB-HGM-RO-01k

Low monitoring requirements

There is no need for an additional lubrication system, and the pump does not require any vibration or bearing temperature monitoring. This saves both initial and operating costs for the pump set.

Minimum maintenance costs

Because of its axial inlet, the HGM-RO high-pressure pump has just one mechanical seal, which minimises spare parts costs. The ring section design ensures top reliability in the extreme conditions of reverse osmosis systems. No lubrication systems are required. The mechanical seal is easy to replace.

Reduced construction costs

The pump’s compact design, low weight and smooth running lower the requirements to be met by the foundation. Flexible connection branches facilitate connection to the system piping.

 

Easier to install and dismantle than axially split pumps

The pump can be dismantled and reassembled from either side. The wear parts are easily accessible.

 

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KSB-CHTC – Horizontal, multistage high-pressure barrel type pump

 

 KSB-CHTC – Horizontal, multistage high-pressure barrel type pump

Design

KSB-CHTCHorizontal, high-pressure barrel-type pump with radial impellers, single- and double-entry, multistage, with flanges / weld end nozzles to DIN and ANSI.

 

Applications

Handling of feed water and condensate in power stations and industrial facilities, generation of pressurized water for bark peeling machines and descaling equipment.

 

High operating reliability

KSB-CHTC-Modular1. In the case of axial thrust balancing by double drum, the
residual axial thrust is absorbed by a tilting-pad thrust
bearing

2. Optimisation of casing design in terms of line of action of
force

3. Adaptation of pump casing to rotor deflection line

Long service life

4. Transmission of axial forces to the bearing housing by
means of a cardanic ring avoids wear on the thrust bearing

5. Low NPSH value thanks to fitting of suction stage impeller as a standard

Ease of service

6. Replacement of pump cartridge without having to remove
the pump from the piping

7. Maintenance work on wear parts with no opening of the
pump

Reduced operating costs

8. Efficiency improvement through cellular surface wear
rings

 

Overview of technical data

Barrel casing Yes
Type of bearing Plain bearings
Casing partition Radially split
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor, turbine
Drive voltage Low voltage, high voltage
Type of first impeller Single entry
No. of impeller entries Single / Double entry
Other impeller types Closed / Radial
Type of installation Long- coupled
Type of coupling Geared variable speed coupling; Gear;Variable speed coupling;Direct
Type of lubrication Grease / Oil / Pressurized oil lubrication
Max. permissible fluid temperature 200 °C
Nozzle position Variable
Maximum rated pressure (discharge) PN160; PN250; PN320; PN400
Pull-out design Yes
Pump set location Dry installed
Suction characteristics Non- priming
Type of connection Flange, weld ends
Type of discharge casing Annular casing
Type of stage casing Stage casing with diffuser
Type of suction casing Annular casing
eClass assignment 36410000; 36410101;36410100
Maximum head 4. 000,00 m
Installation position Horizontal
Shaft seal type Mechanical seal
Main applications Energy; Industry and process engineering
Casing material Carbon steel; Chrome steel
Maximum discharge-side pressure 400 bar
Maximum suction pressure 30 bar
Type of installation Stationary
Maximum flow rate 1. 278 m³/h
Maximum speed of rotation 6. 750 1/min

 

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KSB-CPKN-SX Sprinkler systems to VdS and fire protection Pump

 

 

 

Design

KSB-CKPN-MODULARHorizontal, long-coupled, single-stage volute casing pump in back pull-out design. Replaceable shaft protecting sleeves and casing wear rings.

Applications

Sprinkler systems to VdS and fire protection.

 

 

 

 

 

 

Overview of technical data

Type of bearing Ball bearings
Casing partition Radially split
Drive frequency 50 Hz / 60 Hz
Type of drive Electric motor, turbine, I.C. engine
Drive voltage Low voltage
No. of impeller entries Single entry
Impeller material (EN standard) 1, 4408
Type of installation Long- coupled
Type of coupling Direct
Type of lubrication Oil lubrication
Max. permissible fluid temperature 20
Nozzle position End suction
Maximum rated pressure (discharge) 25 BAR
Pull-out design Yes
Pump set location Dry installed
Shaft material (EN standard) 1. 4057;1.4462
Suction characteristics Non- priming
Suitable for drinking water Yes
Type of impeller Radial; Closed;Multi-vane impeller
Type of connection Flange
Casing material (EN standard) JS1025
eClass assignment 36410101; 36410000;36410100
Maximum head 163, 00
Minimum head 84, 00 m
Shaft seal type Mechanical seal; Gland packing
Main applications Industry and process engineering; Building services;Water
Casing material Cast iron
Maximum discharge-side pressure 25 bar
Maximum drive rating 250 kW
Type of installation Stationary
Maximum flow rate 468 m³/h
Minimum flow rate 82 m³/h
Maximum speed of rotation 3 1/min

Fire protection is a question of experience

Application-cpkn-sx_KSB
KSB leads the European sprinkler pump market – with good reason. Our experience in fire protection stretches back more than
40 years. And KSB makes its products on every continent. That
international presence is a major advantage in fire protection –
we know our way through all the standards, certifications and
regulations and are represented by fire protection experts in over
100 countries. We have the right pumps and components to
match central Europe’s VdS standard, the UK’s LPC BS 5306-2,
Spain and Portugal’s CEPREVEN, European standard EN 12845,
NFPA20/FM/UL in the USA, and a host of other national standards.
For us, quality includes delivering ideal technology. But that is
just part of our first-class service. More than 1,600 KSB specialists
in over 100 service centres provide skilled help, fast. Whether
your building is just being planned or older than all its occupants,
KSB stops fires before they really get started. Water relief!

 

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KSB-MHD Slurry Pumps

 

Design

KSB-MHD-ModularDesigned to provide high flow/medium head with high efficiency for high
volume transportation in long pipelines.

Horizontal end suction construction. Single wall pump shell
with replaceable suction side liner; four vane impeller or
three vane option for larger size solids.

 

Applications

Mineral processing (oil sands, copper, gold, iron ore, nickel, phosphate, coal)

• Power Generation
• Aggregate (sand & gravel)
• Ash Handling
• Flue Gas Desulfurization
• Thickener & Tailings
• Mine Dewatering
• Industrial Slurries
• Dredge

 

Wear Parts

1. Impeller is designed for wear-resistant operation in
highly abrasive slurries using GIW’s flow simulation
computer program.
2. Two aramid gaskets aid in the removal of the impeller.
3. Replaceable suction liner facilitates pump internal
inspection and minimizes wear part usage and cost.
Liner can be rotated at intervals to increase wear life.
4. Pump shell is computer designed to optimize wear
and efficiency.

 

Shaft Seal

KSB-MHD-LSA-Shaftseal5. Replaceable wear plate maximizes stuffing box life.
Reduced water consumption options available.
6. Shaft sleeve with fused carbide wear resistant coating
to maximize packing life

 

Mechanical End

KSB MHD-Curves7. Robust stiffened shaft to improve the wear life
of the mechanical end and stuffing box.
8. Impeller release ring for safe and easy impeller
removal. Feature is standard on larger pump sizes.
9. Spring retainer ring locates the thrust bearing
preload springs for correct axial thrust load.
10. Radial bearings are a heavy duty, self-aligning,
double-row, spherical roller-type design.
11. Split-cartridge bearing assembly offers ease of
inspection and maintenance.
12.Accurate impeller clearance adjustments are easily
made with the adjusting screw.
13. Labyrinth seals protect bearings.

 

Quick Alignment

14. Rabbet fits machined in the pedestal support the
shell and provide component alignment.

 

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