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GRUNDFOS DATA BOOKLET
Sanitary pumps
Centrifugal pumps50 Hz
2
Contents
IntroductionGrundfos sanitary pumps 3Hygienic design 3
Performance rangePerformance range, 2-pole 4Performance range, 4-pole 4
Euro-HYGIA®Euro-HYGIA® 6
F&B-HYGIA®F&B-HYGIA® 8
ContraContra 10
durietta 0durietta 0 12
SIPLASIPLA 14
MAXA and MAXANAMAXA and MAXANA 16
IdentificationType keys 18Design variations 19
Connection selection guideSelection of connection according to application 21Selection of connection according to pump type 22Design 23
Product rangeSanitary pumps 27
ConstructionMotor 28Motor ranges 28Motor protection 31Impeller types 32Surface treatment 32
Shaft sealsMechanical shaft seal 33
CertificationApprovals and certificates 36Certificates 36Surface finish of sanitary pumps 37
InstallationMechanical installation 38Space requirements 38Elimination of noise and vibration 39Terminal box positions 39
Curve chartsHow to read the curve charts 40Curve conditions 41
Performance curves/technical dataEuro-HYGIA® I 42Euro-HYGIA® II 48F&B-HYGIA® I 58F&B-HYGIA® II 64F&B-HYGIA® II 64Contra I 72Contra II 80durietta 0 88SIPLA 92MAXA 80-160/XXX 98MAXANA 32-160/XXX 112
Further product documentationWebCAPS 128
3
Sanitary pumpsIntroduction
Grundfos sanitary pumpsGrundfos stainless steel sanitary pumps are designed for a wide range of hygienic and sanitary applications such as:
• food and beverage• life science/pharmaceutical• personal care• water treatment.
The Grundfos range of sanitary pumps comprises the below pump types, each state-of-the-art within their specific field of application.
The pumps can be fitted with a variety of features to adapt to specific pumping tasks. In addition, it is possible to customise the pumps for optimum function or performance in relation to the job at hand.
Euro-HYGIA® Euro-HYGIA® single-stage, end-suction centrifugal pumps come in a variety of flexible versions. The pumps offer heads up to 70 metres, flow rates up to 250 m3/h and operating pressures up to 16 bar. Pipe connections range from DN 25 to DN 125 and motor sizes from 0.55 to 22 kW. See page 6.
F&B-HYGIA®
F&B-HYGIA® single-stage, end-suction centrifugal pumps offer heads up to 70 metres, flow rates up to 105 m3/h and operating pressures up to 16 bar. Pipe connections range from DN 40 to DN 100 and motor sizes from 1.1 to 18.5 kW. See page 8.
ContraContra single-stage or multi-stage, end-suction centrif-ugal pumps come in a variety of flexible versions. The pumps offer heads up to 160 metres, flow rates up to 55 m3/h and operating pressures up to 25 bar. Pipe connections range from DN 25 to DN 80 and motor sizes from 0.55 to 18.5 kW. See page 10.
durietta 0durietta 0 single-stage or multi-stage centrifugal pumps offer low flow and high head. The pumps are available in a vertical and a horizontal version. The pumps offer heads up to 70 metres, flow rates up to 6 m3/h and operating pressures up to 8 bar. Pipe connections range from DN 25 to DN 40 (1" to 1½") and motor sizes from 0.25 to 2.2 kW. See page 12.
SIPLASIPLA single-stage, self-priming, side-channel pumps offer heads up to 56 metres, flow rates up to 80 m3/h and operating pressures up to 10 bar. Pipe connections range from DN 32 to DN 80 and motor sizes from 0.75 to 22 kW. See page 14.
MAXA and MAXANAMAXA and MAXANA are single-stage, end-suction cen-trifugal pumps. The MAXA pumps are designed accord-ing to DIN EN 733. The pumps offer heads up to 97 metres, flow rates up to 820 m3/h and operating pressures up to 10 bar. Pipe connections range from DN 32 to DN 150 and motor sizes from 0.55 to 90 kW. See page 16.
Hygienic designThe Grundfos sanitary pumps have been designed in accordance with the strictest hygienic design criteria.
The surface finish of the materials used is of paramount importance to prevent possible breeding grounds for bacteria and germs.
Fully drainable models are available, and the use of AISI 316L (DIN EN 1.4404/1.4435) cold-rolled and/or forged stainless steel ensures a homogeneous, pore-free surface in contrast to cast materials.
The design, materials and material surface finish are subject to a variety of national and international rules and regulations, guidelines and laws. Among these are the EU Machinery Directive, the GMP (Good Manu-facturing Practices) rules and regulations, the FDA (Food and Drug Administration) regulations, the 3A Sanitary Standards, the EU foodstuff hygienic guide-lines, the DIN EN 12462 Biotechnology Standard as well as the EHEDG (European Hygienic Engineering & Design Group) and the QHD (Qualified Hygienic Design) criteria.
Shaft sealsSingle, flushed or double mechanical shaft seal arrangements are available, depending on the applica-tion and the pumped liquid. The seals offer trouble-free operation.
The single shaft seals are inboard mechanical seals with the optimum position in the pumped liquid in order to ensure lubrication, cooling as well as CIP (Cleaning In Place) and SIP (Sterilisation In Place).
Double seals are available as a tandem arrangement or mounted back-to-back.
ConnectionsA variety of connections are available, such as sterile threads to DIN 11864-1 PN 16 and sterile flanges to DIN 11864-2 PN 16. See page 34.
Sanitary pumps
4
Performance range
Performance range, 2-pole
Performance range, 4-pole
*durietta 0: The performance range is shown on page 88.
TM02
973
9 37
04
5 6 8 10 15 20 30 40 50 60 80 100 150 200 300 400Q [m³/h]
20
30
40
50
60
70
80
100
150
[m]H
2 3 4 5 6 7 8 9 1010 20 30 40 50 60 70 Q [l/s]
200
300
400
500
600
700
800
900
10001000
[kPa]p
50 Hz
F&B-HYGIA II
Contra ll
Euro-HYGIA I
Contra I Euro-HYGIA II MAXANA MAXA
F&B- HYGIA
Euro-HYGIA II
*durietta 0
TM02
974
0 37
04
5 6 8 10 15 20 30 40 50 60 80 100 150 200 300 400 500600 800 1000Q [m³/h]
5
10
15
20
30
40
50
[m]H
2 3 4 5 6 7 8 9 1010 20 30 40 50 60 70 80 100100 Q [l/s]
50
100100
200
300
400
500
[kPa]p
50 Hz
Euro-HYGIA I
Euro-HYGIA II
SIPLA
MAXA
MAXANA
F&B-HYGIA II
F&B-HYGIA I
*durietta 0
5
6
Sanitary pumpsEuro-HYGIA®
Euro-HYGIA®
Fig. 1 Euro-HYGIA®
Technical data
Euro-HYGIA® I and II
ApplicationsThe unique hygienic design and the materials used make the Euro-HYGIA® pumps suitable for these appli-cations:
Life science/pharmaceutical• pure water systems (WFI)• biotechnology• infusion• nutrient and alcohol infusions• filling/bottling systems.
Personal care• pure water• lotions• perfumes.
Food and beverage• beer/breweries• dairies• soft drink mixing• yeast processes.
Other industries• cleaning solutions (CIP systems)• water treatment• semi-conductor manufacturing• metal surface treatment.
ConstructionEuro-HYGIA® pumps are single-stage, end-suction centrifugal pumps, designed to meet the hygienic requirements of sterile process technology.
The pumps are available in a variety of flexible ver-sions. The pumps are CIP and SIP capable in compli-ance with the DIN EN 12462 performance criteria.
The design of the wetted parts complies with the follow-ing:
• QHD criteria• EHEDG recommendations for CIP cleanability (vali-
dated by the TNO Quality of Life institute)• 3A Sanitary Standards (US)• GOST sanitary standard (Russia).
Fig. 2 Certification
The pumps comply with these surface finish require-ments:
Standard pump version: 3A1Optional: 3A2, 3A3.
For explanation, see Certification, page 36.
The pump housing is made of heavy-duty, rolled and deep-drawn CrNiMo steel to DIN EN 1.4404/1.4435, the equivalent of AISI 316L.
Three impeller types are available, depending on the applications: Semi-open, closed and free-flow impeller. See page 32.
The pumps have a mechanical shaft seal and a fan-cooled asynchronous motor with enclosure to IP 55.
Fig. 3 Sectional drawing of Euro-HYGIA® I Bloc-SUPER on combi foot
GR
8963
Head: up to 70 mFlow rate: up to 108 m3/h(Euro-HYGIA® III on request):
up to 250 m3/h
Operating pressure: up to 16 barOperating temperature: 95 °C
(up to 150 °C on request)Sterilisation temperature: 140 °C (SIP)
TM02
960
7 35
04
1 4
2 3
5
6
Euro-HYGIA® Sanitary pumps
Materials
Design variations
See page 30.
Mechanical shaft sealGrundfos offers these seal arrangements:
• single seal• double tandem seal• double back-to-back seal.As standard, the Euro-HYGIA® is fitted with a single, inboard, mechanical shaft seal with an optimum posi-tion in the pumped liquid. This ensures lubrication, cooling as well as CIP and SIP, according to the criteria of hygienic design.
Standard seals have carbon/stainless steel seal faces and EPDM O-rings. Other seal face material combina-tions are available on request.
See page 33.
Surface treatmentAs standard, all wetted parts are electro-polished to improve corrosion-resistance and surface finish.
Standard connectionGrundfos offers threads to DIN 11851 as standard for Euro-HYGIA® pumps.
Connections on requestThreads:
• Aseptic threads to DIN 11864-1.Flanges:
• Aseptic flanges to DIN 11864-2• APV flanges• Flanges to DIN EN 1092-1 (DIN 2633)• Kremo flanges to DIN EN 1092-1 (DIN 2633/42).Clamps:
• Clamps to DIN 32676• Clamps for Tri-Clamp®/Tri-Clover®.Note: Not all pump sizes are available with all connec-tions types. See pages 34 to 35.
For other connection types as well as applications and design of connections, see pages 21 to 26.
Features and benefits• A wide range of support options for motor and
pump.• Extremely reliable operation under most working
conditions.• Optimised hydraulics for high efficiency
- reduced power consumption.• Multi-function inducer for NPSH reduction or pump-
ing of liquids containing gas (Euro-HYGIA® II).• Motors for special voltages and frequencies.• Euro-HYGIA® Adapta® and Euro-HYGIA® CN with
explosion-proof or flameproof three-phase motors available for ATEX applications.
• Motors for variable speed drive with built-in fre-quency converter as "tronic", available for motor sizes up to 22 kW.
• Mobile pumps mounted on two-wheel stainless steel trolley with on/off switch and electric cable.
• DN 15 diaphragm valve drain for sterile processes.• DN 15 drain connection.• Heating/cooling jacket for pump housing.• Integral flange ring for bolted housing closure
(HPM).• Special paint finish for the drive and the cast iron/
steel parts.
Pos. Component Material DIN/EN
1 Impeller CrNiMo steel 1.4404/1.4435
2 Pump housing CrNiMo steel 1.4404/1.4435
3 Shaft seal
Sterile applications: SiC/SiC/EPDM Hygienic applications: Carbon/stainless steel/EPDM or FKM
4 Pump shaft CrNiMo steel 1.45715 Shroud Stainless steel6 Support Stainless steel/cast iron
Standard variation Description
Euro-HYGIA® Adapta® Horizontal installation,Adapta® motor stool
Euro-HYGIA® Adapta® SUPERHorizontal installation,Adapta® motor stool,motor with stainless steel shroud
Euro-HYGIA® Bloc Horizontal installation
Euro-HYGIA® Bloc-SUPER Horizontal installation,motor with stainless steel shroud
Variation on request Description
Euro-HYGIA® Adapta®-V Vertical installation,Adapta® motor stool
Euro-HYGIA® Bloc-V Vertical installationEuro-HYGIA® VE Vertical tank installation
Euro-HYGIA® CN Horizontal installation, long-coupled version mounted on base plate
Euro-HYGIA® tronicHorizontal/vertical installation, motor with built-in frequency converter (up to 22 kW)
7
8
Sanitary pumpsF&B-HYGIA®
F&B-HYGIA®
Fig. 4 F&B-HYGIA®
Technical data
F&B-HYGIA® I and II
ApplicationsThe unique hygienic design and the materials used make the F&B-HYGIA® pumps suitable for these appli-cations:
BeveragesBeer, soft drinks, alcohol, wine, fruit drinks, yeast, etc.
DairiesMilk, whey, cream, condensed milk, etc.
ConfectionerySyrup, sugar solutions, etc.
Meat packingLiquid fat, frying oil, smokehouse spray, blood process-ing, etc.
ConstructionF&B-HYGIA® single-stage, end-suction centrifugal pumps are designed to meet the hygienic requirements of sterile process technology.
The pumps are CIP and SIP capable in compliance with the DIN EN 12462 performance criteria.
The design of the wetted parts complies with the follow-ing:
• QHD criteria• EHEDG recommendations for CIP cleanability (vali-
dated by the TNO Quality of Life institute)• 3A Sanitary Standards (3A1)For explanation, see Certification, page 36.
Fig. 5 Certification
The pump housing is made of heavy-duty, rolled and deep-drawn CrNiMo steel to DIN EN 1.4404, the equiv-alent of AISI 316L.
F&B-HYGIA® pumps are fitted with a semi-open impel-ler. See page 32.
The pumps have a mechanical shaft seal (optionally with quench) and a fan-cooled, asynchronous motor with enclosure to IP 55.
The pumps are fitted with Grundfos MG motors up to 11 kW, 2-pole and 5.5 kW, 4-pole. It is possible to choose between EFF 1 motors and EFF 2 motors (5.5 kW, 4-pole motors are only available as EFF 2).
Fig. 6 Sectional drawing of F&B-HYGIA® K on combi foot
GrA
2396
Head: up to 70 mFlow rate: up to 105 m3/hOperating pressure: up to 16 barOperating temperature: 95 °C
(up to 150 °C on request)Sterilisation temperature: 140 °C (SIP)
(Sterilisation In Place)
TM03
389
8 11
06
2
1 5
4 3 6
F&B-HYGIA® Sanitary pumps
Materials
Design variations
See page 30.
Mechanical shaft sealGrundfos offers these seal arrangements:
• single seal• Flushed single mechanical seal.As standard, the F&B-HYGIA® is fitted with a single, inboard, mechanical shaft seal with an optimum posi-tion in the pumped liquid. This ensures lubrication, cooling as well as CIP and SIP, according to the criteria of hygienic design.
Carbon/stainless steel seal faces and EPDM O-rings are standard. Other seal face material combinations are available on request.
See page 33.
Surface treatmentAll chrome steel parts are blasted as standard.
Standard connectionsGrundfos offers threads to DIN 11851 as standard for F&B-HYGIA® pumps.
Connections on requestFlanges:
• Kremo flanges to DIN EN 1092-1 (DIN 2633/42).Clamps:
• Clamps for Tri-Clamp®/Tri-Clover®.For other connection types as well as applications and design of connections, see pages 21 to 26.
Features and benefits• A wide range of support options for motor and
pump.• Extremely reliable operation under most working
conditions.• Optimised hydraulics for high efficiency - reduced
power consumption.• Motors for special voltages and frequencies on re-
quest.
Pos. Component Material DIN EN1 Impeller CrNiMo steel 1.44042 Pump housing CrNiMo steel 1.4404
3 Shaft sealHygienic applications: Carbon/stainless steel/EPDM or FKM
4 Pump shaft CrNiMo steel 1.45715 Motor6 Support Stainless steel/cast iron
Standard variation Description
F&B-HYGIA® K Horizontal installation with plug-in shaft and multi-functional lantern.
F&B-HYGIA® K-SUPERHorizontal installation with plug-in shaft and multi-functional lantern, motor with stainless steel shroud.
Variation on request Description
None
9
10
Sanitary pumpsContra
Contra
Fig. 7 Contra
Technical data
Contra I and II
ApplicationsThe unique hygienic design and the materials used make the Contra pumps suitable for pressure boosting in these applications:
Food and beverage• breweries and dairies• carbonising systems• food processing plants.
Pharmaceutical and related industry• purification systems• pure-water systems (WFI)• personal care industries.
Other industrial applications• surface treatment systems• water processing systems• CIP feeding systems.
ConstructionContra pumps are single-stage or multi-stage, end-suction centrifugal pumps.
The pumps are available in a variety of flexible ver-sions. The pumps are CIP and SIP capable in compli-ance with the DIN EN 12462 performance criteria. They also meet the GMP requirements regarding FDA-approved materials.
The design complies with the following:
• QHD criteria• EHEDG recommendations
Fig. 8 Certification
The pumps comply with these surface finish require-ments:
Standard pump version:3A1Optional: 3A2, 3A3.
For explanation, see section Certification, page 36.
The pump housing is made of rolled and forged stain-less steel to DIN EN 1.4404/1.4435, the equivalent of AISI 316L. This guarantees a homogeneous, pore-free surface, in contrast to cast materials.
The Contra pumps have open diffusers. The O-ring seal locations for the housing and impellers are designed to meet the criteria of hygienic design with metal-to-metal contact seal areas and no pump housing dead-ends.
Contra pumps are fitted with a semi-open impeller as standard. See page 32.
The vertical versions are fully self-draining through the suction port of the pumps.
The pumps have a mechanical shaft seal and a fan-cooled asynchronous motor with enclosure to IP 55.
Fig. 9 Sectional drawing of Contra I Bloc-SUPER on combi foot
GR
8961
Head: up to 160 mFlow rate: up to 55 m3/hOperating pressure: up to 25 barOperating temperature: 95 °C
(up to 150 °C on request)Sterilisation temperature: 140 °C (SIP)
TM02
961
0 35
04
1 4 5 6
2 3 7
Contra Sanitary pumps
Materials
Design variations
See page 30.
Mechanical shaft sealGrundfos offers these seal arrangements:
• single seal• double tandem seal• double back-to-back seal.As standard, the Contra is fitted with a single, inboard, mechanical shaft seal with an optimum position in the pumped liquid. This ensures lubrication, cooling as well as CIP and SIP according to the criteria of hygienic design.
Standard seals have carbon/stainless steel seal faces and EPDM O-rings. Other seal face material combina-tions are available on request.
See page 33.
Surface treatmentAs standard, all wetted parts are electro-polished to improve corrosion-resistance and surface finish.
Standard connectionGrundfos offers threads to DIN 11851 as standard for Contra pumps.
Connections on requestThreads:
• Aseptic threads to DIN 11864-1.Flanges:
• Aseptic flanges to DIN 11864-2• APV flanges• Flanges to DIN EN 1092-1 (DIN 2633)• Kremo flanges to DIN EN 1092-1 (DIN 2633/42).Clamps:
• Clamps to DIN 32676• Clamps for Tri-Clamp®/Tri-Clover®.Note: Not all pump sizes are available with all connec-tion types. See pages 37 to 42.
For other connection types as well as applications and design of connections, see pages 21 to 26.
Features and benefits• A wide range of support options for motor and
pump.• Extremely reliable operation under most working
conditions.• Optimised hydraulics for high efficiency - reduced
power consumption.• Contra Adapta® and CN with explosion-proof or
flameproof motors available for ATEX applications.• Motors with special voltages and frequencies.• Pump with water-cooled motor for clean-room appli-
cations.• Adapta® tronic versions fitted with motors for varia-
ble speed drive with built-in frequency converter, available for motor sizes up to 18.5 kW.
• Flush or barrier fluid systems for tandem or back-to-back double mechanical seals.
• Mobile pumps mounted on two-wheel trolley with on/off switch.
• Special paint for motor, cast iron and carbon steel parts (except for Adapta® Bloc).
Pos. Component Material EN/DIN
1 Impeller CrNiMo steel 1.4404/1.4435
2 Pump housing CrNiMo steel 1.4404/1.4435
3 Shaft sealSterile applications: SiC/SiC/EPDM Hygienic applications: Carbon/stainless steel/EPDM or FKM
4 Pump shaft CrNiMo steel 1.4571/1.4462
5 Motor6 Shroud Stainless steel7 Support Stainless steel/cast iron
Standard variation DescriptionContra Adapta® Horizontal installation, Adapta® motor stool
Contra Adapta® SUPER Horizontal installation, Adapta® motor stool, motor with stainless steel shroud
Contra Adapta®-V Vertical installation, Adapta® motor stoolContra Bloc Horizontal installation
Contra Bloc-SUPER Horizontal installation, motor with stainless steel shroud
Variation on request DescriptionContra Bloc-V Vertical installation
Contra CN Horizontal installation, long-coupled version mounted on base plate
Contra tronic Horizontal/vertical installation, motor with built-in frequency converter (up to 18.5 kW)
11
12
Sanitary pumpsdurietta 0
durietta 0
Fig. 10 durietta 0
Technical data
durietta 0 pumps
ApplicationsThe unique hygienic design and the materials used make the durietta 0 pumps suitable for these applica-tions:
Food and beverage• pumping of liquids in micro-breweries and dairies• bottling systems for liquids• food processing plants• drinking water systems.
Pharmaceutical and related industry• purification systems• personal care industries.
Other industrial applications• semi-conductor manufacturing• plate heat exchangers.
Constructiondurietta 0 pumps are compact, end-suction, single-stage or multistage centrifugal pumps, designed in compliance with the 3A criteria (3A0.01 and 3A1.02).
The laminated, stainless steel pump components are manufactured to EN 1.4571 and EN 1.4404.
The impeller types available are of the semi-open or closed type, depending on the applications.See page 32.
The pumps have a mechanical shaft seal and an asyn-chronous motor with enclosure to IP 55.
Fig. 11 Sectional drawing of durietta 0/2 K SUPER on combi foot
Materials
Design variations
See page 30.
Mechanical shaft sealGrundfos offers these seal arrangements:
• single seal• double tandem seal (maximum four stages)The standard, mechanical shaft seals have an optimum
GrA
2397
Head: up to 70 mFlow rate: up to 6 m3/hOperating pressure: up to 8 barTemperature range: 0 °C to 90 °C.
TM03
378
2 10
06
Pos. Component Material EN/DIN 1 Impeller CrNiMo steel 1.44042 Pump housing CrNiMo steel 1.4404
3 Shaft seal SiC/SiC Carbon/stainless steel Joints: EPDM or FKM
4 Pump shaft CrNiMo steel 1.45715 Motor6 Shroud Stainless steel 1.43077 Support Stainless steel 1.4307
Standard variation Descriptiondurietta 0 K Horizontal installation, monobloc
durietta 0 K SUPERHorizontal installation, motor with stainless steel shroud on stainless steel foot with elas-tomer base
Variation on request Description
durietta 0 tronic Horizontal installation, motor with built-in un-shrouded frequency converter
2 1 5 6
4 3 7
durietta 0 Sanitary pumps
position in the pump housing. This ensures lubrication and cooling of the mechanical shaft seal in accordance with the criteria of the hygienic design.
Standard seals have carbon/stainless steel seal faces and EPDM O-rings. Other seal face material combina-tions are available on request.
See page 33.
Surface treatmentWetted parts are blasted as standard. Electro-polished wetted parts are also available on request.
Standard connectionGrundfos offers threads to DIN 11851 as standard for durietta 0 pumps.
Connections on requestThreads:
• Threads, SMS• Threads to DIN ISO 228 (male) - GAZ• Threads to DIN EN 10226-1 (female).Flanges:
• Flanges to DIN EN 1092-1 (DIN 2642).Clamps:
• Clamps, ISO• Clamps, SMS.Note: Not all pump sizes are available with all connec-tion types. See page 43 to 45.
For other connection types as well as applications and design of connections, see pages 21 to 26.
Features and benefits• Motor for special voltages and frequencies (NEMA,
UL, CSA, etc.) on request• Motor with built-in frequency converter for output
regulation (not available in K SUPER execution)• Mobile pumps mounted on stainless steel trolley
with on/off switch (on request)• Special paint finish for the motor (on request).
13
14
Sanitary pumpsSIPLA
SIPLA
Fig. 12 SIPLA
Technical data
SIPLA pumps
ApplicationsThe unique hygienic design, the materials used and its exceptional self-priming capability make the SIPLA pumps suitable for these applications:
Food and beverage• transfer of yeast• transfer of cheese whey.
Pharmaceutical industry• transfer of glycerine.
Other industrial applications• CIP-return pumping• applications involving liquids with a high air content• filtration systems.
ConstructionSIPLA pumps are single-stage, self-priming, side-channel pumps.
The pump housing and front cover are made of preci-sion-cast stainless steel to DIN EN 1.4404. The impel-ler nut is made of stainless steel to DIN EN 1.4435, the equivalent of AISI 316L.
SIPLA pumps are fitted with an open star impeller as standard. See page 32.
The pump shaft is made of stainless steel to DIN EN 1.4571, the equivalent of AISI 316TI.
Thanks to its unique side-channel design, the SIPLA pump is capable of handling liquids with a high air con-tent as in CIP-return systems.
The pumps have a mechanical shaft seal and a fan-cooled asynchronous motor with enclosure to IP 55.
Fig. 13 Sectional drawing of SIPLA Bloc-SUPER on stainless steel ball feet
GR
8965
Head: up to 56 mFlow rate: up to 80 m3/h(SIPLA 90.1 - on request): up to 90 m3/hOperating pressure: up to 10 barOperating temperature: 95 °C Sterilisation temperature: 140 °C (SIP)
TM02
960
8 35
04
2 4 5 6
1 7 3 7
SIPLA Sanitary pumps
Materials
Design variations
See page 30.
Mechanical shaft sealSIPLA pumps are fitted with a single, inboard, mechan-ical shaft seal with an optimum position in the pumped liquid. This ensures efficient CIP, SIP, cooling and lubri-cation.
As standard, the SIPLA pump is fitted with a shaft seal with carbon/stainless steel seal faces and EPDM or FKM O-rings.Shaft seals with SiC/SiC seal faces and EPDM or FKM O-ring are available on request.
See page 33.
Surface treatmentAs standard, all wetted parts are electro-polished to improve corrosion-resistance and surface finish.
Standard connectionGrundfos offers threads to DIN 11851 as standard for SIPLA pumps.
Connections on requestFlanges:
• Flanges to DIN EN 1092-1 (DIN 2633/42).Clamps:
• Clamps to DIN 32676• Clamps for Tri-Clamp®/Tri-Clover®.For other connection types as well as applications and design of connections, see pages 21 to 26.
Product features and benefits• A wide range of support options for motor and pump• Extremely reliable operation under most working
conditions• Optimised hydraulics for high efficiency - reduced
power consumption• Motors for variable speed drive with built-in
frequency converter, "tronic", available for motor sizes up to 22kW
• ATEX-certified pumps available on request• Mobile pumps mounted on two-wheel trolley with
on/off switch.
Pos. Component Material EN/DIN 1 Impeller CrNiMo steel 1.44042 Pump housing CrNiMo steel 1.4404
3 Shaft sealHygienic applications: Carbon/stainless steel/EPDM or FKM
4 Pump shaft CrNiMo steel 1.45715 Motor6 Shroud Stainless steel7 Support Stainless steel/cast iron
Standard variation Description
SIPLA Adapta® Horizontal installation, Adapta® motor stool
SIPLA Adapta® SUPER Horizontal installation, Adapta® motor stool, motor with stainless steel shroud
SIPLA Bloc Horizontal installation
SIPLA Bloc-SUPER Horizontal installation, motor with stainless steel shroud
Variation on request Description
SIPLA CN Horizontal installation, long-coupled version mounted on base plate
SIPLA tronicHorizontal/vertical installation, motor with built-in frequency converter (up to 22 kW)
15
16
Sanitary pumpsMAXA and MAXANA
MAXA and MAXANA
Fig. 14 MAXA and MAXANA
Technical data
MAXA pumps
MAXANA pumps
ApplicationsThe MAXA and MAXANA pumps are suitable for these applications:
Food and beverage• gentle pumping of mash and wort, and beer filtration
(hot side)• liquid transfer in dairies and food processing plants.
Other industrial applications• water treatment plants• chemical handling systems• applications involving liquids with a high content of
solid particles• environmental systems• Bio fuel.
ConstructionThe MAXA and MAXANA pumps are single-stage, end-suction, centrifugal pumps, designed for industrial proc-esses.
The pumps are available in a variety of flexible ver-sions.
EHEDG recommendations for CIP cleanability. Only valid for certain models. (validated by the TNO Quality of Life institute)
For explanation, see Certification, page 36.
Certification
Requirements complied with:
For explanation, see section Certification, page 36.
The major dimensions and characteristics of the pumps are according to DIN EN 733 and DIN EN 22858.
The pump housing are made of heavy-duty, rolled and deep-drawn stainless steel to DIN EN 1.4404. The back plate is made of rolled stainless steel to DIN EN 1.4571.
The pumps feature closed steel impellers with opti-mised blade entry angles to DIN EN 1.4571. See page 32.
Fig. 15 Sectional drawing of MAXANA-CN on base plate
TM03
017
0 43
04
Head: 97 mFlow rate: up to 820 m3/hOperating pressure: up to 10 barOperating temperature: 95 °C
(up to 150 °C on request)Sterilisation temperature: 140 °C (SIP)
Head: up to 97 mFlow rate: up to 165 m3/hOperating pressure: up to 10 barOperating temperature: 95 °C
(up to 150 °C on request)Sterilisation temperature: 140 °C (SIP)
Pump type StandardMAXA 3A0 and 3A2*.MAXANA 3A0* Applies to MAXA 100-200, 100-250, 125-250,
150-250, 200-400
TM02
960
9 35
04
2 5 4 6 7
1 3 8
MAXA and MAXANA Sanitary pumps
Materials
Design variations
See page 30.
Mechanical shaft sealGrundfos offers these seal arrangements:
• single seal• double tandem seal• double back-to-back seal.As standard, MAXA and MAXANA pumps are fitted with a single, inboard, mechanical shaft seal with an opti-mum position in the pumped liquid. This ensures effi-cient cleaning, cooling and lubrication.
The mechanical shaft seal is designed to DIN EN 12756.
Standard single seals have carbon/stainless steel seal faces and EPDM O-rings. Other seal face material com-binations are available on request.
See page 33.
Surface treatmentAs standard, all wetted parts are made of corrosion-resistant chrome-nickel-molybdenum steel.
Grundfos offers industrial, electro-polished variants.
Standard connectionGrundfos offers Kremo flanges to DIN EN 1092-1 as standard for MAXA and MAXANA pumps.
MAXA pumps also come with flanges to DIN EN 1092-1 as standard.
Note: Not all MAXA pump sizes are available with all connection types. See page 46.
Connections on requestFor other connection types as well as applications and design of connections, see pages 21 to 26.
Features and benefits• A wide range of support options for motor and
pump.• Extremely reliable operation under most working
conditions.• Optimised hydraulics for high efficiency - reduced
power consumption.• Optional location of discharge port on top, on right
or on left side of pump.• Double mechanical seals, depending on model, with
flushing or barrier fluid.• Stuffing box as shaft seal, single or flushed with
C-bearing support to DIN EN 22858 and shaft sleeve.
• Motors with special voltages and frequencies.• Adapta® and CN available with a flameproof three-
phase motor for ATEX applications.• Motors for variable speed drive with built-in fre-
quency converter as "tronic", available for motor sizes up to 22 kW.
• Housing drain connection DN 15; other sizes available.
• Housing with heating jacket.• Special paint for motor and steel components.
Pos. Component Material EN/DIN
1 Impeller CrNiMo steel 1.4404/1.4462
2 Pump housing CrNiMo steel 1.4404
3 Shaft seal
Sterile applications: SiC/SiC/EPDMHygienic applications: Carbon/stainless steel/EPDM or FKM
4 Pump shaft CrNiMo steel 1.4571/1.4462
5 Bearing bracket Stainless steel6 Coupling7 Motor
8 Base plate SteelChrome steel
Standard variation DescriptionMAXA L Horizontal installation
MAXA CN Horizontal installation, mounted on base plate
MAXANA Adapta® Horizontal installation, Adapta® motor stool
MAXANA Bloc Horizontal installationVariation on request Description
MAXA CN Horizontal installation, mounted on base plate
Maxa VE Vertical tank installation
MAXA tronic Horizontal installation, motor with built-in frequency converter (up to 22 kW)
MAXANA CN Horizontal installation, mounted on base plate
MAXANA L Horizontal installation, mounted on pump foot or motor foot
MAXANA tronic Horizontal installation, motor with built-in frequency converter (up to 22 kW)
17
18
Sanitary pumpsIdentification
Type keys
Euro-HYGIA®
F&B-HYGIA®
Contra
durietta 0
SIPLA
MAXA
MAXANA
Design*
* see page 27 for clarification
Example Euro-HYGIA® I BYY 40 32 2.2 4Pump rangeSizeDesignNominal diameter of suction port (DN)Nominal diameter of discharge port (DN)Motor power (P2)Number of poles
Example F&B-HYGIA® I KYY 40 40 2.2 4Pump rangeSizeDesignNominal diameter of suction port (DN)Nominal diameter of discharge port (DN)Motor power (P2)Number of poles
Example Contra I/1 BYY 32 25 1.5 2Pump rangeSize/stagesDesignNominal diameter of suction port (DN)Nominal diameter of discharge port (DN)Motor power (P2)Number of poles
Example durietta 0/2 KYY 32 25 0.55 2Pump rangeSize/stagesDesignNominal diameter of suction port (DN)Nominal diameter of discharge port Motor power (P2)Number of poles
Example SIPLA 3.1 BYY 32 32 0.75 4Pump rangeSizeDesignNominal diameter of suction port (DN)Nominal diameter of discharge port (DN)Motor power (P2)Number of poles
Example MAXA 80-250 KYY 100 80 37 2Pump rangeSizeDesignNominal diameter of suction port (DN)Nominal diameter of discharge port Motor power (P2)Number of poles
Example MAXANA 32-200 BYY 50 32 5.5 2Pump rangeSizeDesignNominal diameter of suction port (DN)Nominal diameter of discharge port (DN)Motor power (P2)Number of poles
A D D Adapta-SUPER-DOCA D S Adapta-SUPERA D V Adapta-VA D X Adapta-SUPER/quietA D Y AdaptaA T D Adapta-SUPER-tronic-DOCA T S Adapta-SUPER-tronicA V E Adapta-VEB T S Bloc-SUPER-tronicB V E Bloc-VEB V S Bloc-V-SUPERB V X Bloc-V-SUPER/quietB V Y Bloc-VB Y S Bloc-SUPERB Y X Bloc-SUPER/quietB Y Y BlocC H Y CN-srecial grease (hot)C N S CN-SuperC N V CN-VC N Y CNC V Y CVC Y Y CK V Y K-VK Y S K-SUPERK Y T K, portableK Y X K-SUPER/quietK Y Y KL Y S L-SUPERL Y X L-SUPER/quietL Y Y LS U B Bloc-submercible motorV E Y VE
Identification Sanitary pumps
Design variationsGrundfos offers each pump range in different designs. Principal sketches of each design variant are shown below. Not all pumps are available in the design varia-tions shown.
Bloc on motor foot
Fig. 16 Euro-HYGIA® Bloc on motor foot
Bloc on stainless steel foot
Fig. 17 Euro-HYGIA® Bloc on stainless steel foot
Bloc-SUPER
Fig. 18 Euro-HYGIA® Bloc-SUPER with shroud on stain-less steel combi foot
Bloc on stainless steel trolley
Fig. 19 Euro-HYGIA® Bloc on stainless steel trolley
CN
Fig. 20 Euro-HYGIA® CN on base plate
Adapta®
Fig. 21 Euro-HYGIA® Adapta® on cast iron foot
Adapta®-SUPER
Fig. 22 Euro-HYGIA® Adapta®-SUPER on stainless steel combi foot
K
Fig. 23 F&B-HYGIA® K on combi foot
K-super
F&B-HYGIA® K super on combi foot
Adapta® on stainless steel trolley
Fig. 24 Euro-HYGIA® Adapta® on stainless steel trolley
Adapta®-V
Fig. 25 Euro-HYGIA® Adapta®-V on pedestal and with suction elbow connection
TM03
007
9 39
04TM
03 0
080
3904
TM03
008
1 39
04TM
03 0
086
3904
TM03
008
5 39
04TM
03 0
082
3904
TM03
008
3 39
04TM
04 2
286
2208
TM03
379
0 22
08TM
03 0
087
3904
TM03
008
8 39
04
19
27
Sanitary pumpsProduct range
Sanitary pumps
Pump range
Eur
o-H
YGIA
® I
Eur
o-H
YGIA
® II
F&B
-HYG
IA®
I
F&B
-HYG
IA®
II
Con
tra
I
Con
tra
II
duri
etta
0
SIP
LA 3
.1
SIP
LA 6
.1
SIP
LA 1
2.1
SIP
LA 1
8.1
SIP
LA 2
8.1
SIP
LA 5
2.1
SIP
LA 6
5.1
SIP
LA 9
0.1
MA
XA
MA
XAN
A
Hydraulic dataMax. head [m] 43 70 43 70 105 160 70 23 34 25 28 38 36 56 44 98 98Max. flow rate [m3/h] 39 108 39 105 23 53 6 4.5 6 12 18 26 42 65 80 800 165Max. operating temperature [°C] 95 95 95 95 95 95 90 95 95 95 95 95 95 95 95 95 95Max. temperature [°C] - on request 150 150 150 150 140 140 - 140 140 140 140 140 140 140 140 150 150
Max. operating pressure [bar] 16 16 16 16 25 25 8 10 10 10 10 10 10 10 10 10 10Max. pump efficiency [%] 62 68 62 68 55 62 45 16.5 18.5 24 24 29 30 34 35 87 72Motor data
Motor power [kW] 0.55-5.5
0.75-22
1.1-5.5
2.2-18.5
0.55-5.5
0.75-18.5
0.25-2.2
0.55-0.75
1.5-2.2
1.5-2.2 3-4 4-
5.57.5-11
11-15
18.5-22 3-90 0.55-
55DesignBloc Bloc SUPERBloc-VVEAdapta®
Adapta® SUPERAdapta®-VKK SUPERK-V CNLTronicMaterialsPump housing:CrNiMo stainless steel 1.4404Pump housing:Stainless steel 1.4404/1.4435Pipe connectionsSee page 21 to 26Impeller typesSemi-open Closed Two-channel (closed)Free-flowStar
Standard.Available on request.
21
Sanitary pumpsConnection selection guide
Selection of connection according to applicationThe table below is intended as a general guide. The selection of connections often depends on local conditions.
Connection Application
Type Standard
Beverages Food Life science and personal care Industrial applications Cleaning
Bre
wer
ies
Win
eJu
ice
Alc
ohol
Sof
t drin
ksC
onfe
ctio
nary
Dai
ries
Fryi
ng o
ilFo
od p
roce
ssin
gS
yrup
Mea
t pac
king
Pur
e-w
ater
sys
tem
s, W
FI
Bio
tech
nolo
gy
Per
fum
es a
nd lo
tions
Glu
e an
d pa
int
Pur
ifica
tion
syst
ems
Che
mic
al h
andl
ing
syst
ems
Env
ironm
enta
l han
dlin
g sy
stem
s
Sur
face
trea
tmen
t sys
tem
s
Bio
fuel
CIP
SIP
Thre
ads
Aseptic threaded connection DIN 11864-1Threaded connection DIN 11851Threaded connection, SMS ISO 2037Threaded connection, DS DS 722Threaded connection, RJT BS4825-5
Threaded connection, IDF ISO 2853BS 4825-4
Threaded connection (male), GAZ DIN ISO 228Tapped connection (female) DIN EN 10226-1
Flan
ges
Aseptic flange DIN 11864-2Flange, APV-FN1/APV-FG1 ISOFlange DIN EN 1092-1Kremo flange DIN EN 1092-1Flange, ANSI 150 LB RF ANSI
Cla
mps
Clamp DIN 32676
Clamp ISO 2852BS 4825-3
Clamp, Tri-Clamp®/Tri-Clover® ASME BPEClamp, ISOClamp, SMSStub DIN 11850
Typically used.
22
Connection selection guide Sanitary pumps
Selection of connection according to pump typeThe table below is intended as a general guide. The selection of connections often depends on local conditions.
Connection Pump type
Description Rated pressure Standard
Sanitary standard
Euro
-HY
GIA
I
Euro
-HY
GIA
II
F&B
-HYG
IA I
F&B
-HYG
IA II
Con
tra
I
Con
tra
II
duri
etta
0
SIPL
A
MA
XA
MA
XAN
A
NO
VAlo
be*
3A0
3A1
3A2
3A3
Thre
ads
Aseptic threaded connection PN 25-40 DIN 11864-1Threaded connection PN 16-40 DIN 11851Threaded connection, SMS ISO 2037Threaded connection, DS ISO 2037Threaded connection, RJT BS4825-5
Threaded connection, IDF ISO 2853BS4825-4
Threaded connection (male), GAZ PN 10 DIN ISO 228Tapped connection (female) PN 10 DIN EN 10226-1
Flan
ges
Aseptic flange PN 10-25 DIN 11864-2Flange, APV-FN1/APV-FG1 PN 10 APVFlange PN 10 DIN EN 1092-1Flange PN 16 DIN EN 1092-1Kremo flange PN 10 DIN EN 1092-1Kremo flange PN 16 DIN EN 1092-1Flange, ANSI 150 LB RF PN 10-16 ANSI
Cla
mps
Clamp DIN 32676
Clamp ISO 2852BS4825-3
Clamp, Tri-Clamp®/Tri-Clover® ASME BPEClamp, ISOClamp, SMSStub DIN 11850
* See the NOVAlobe data booklet Standard Available on request
Connection selection guide Sanitary pumps
DesignThe following tables show the design of the different connection types.
Threads
Connection Standard Design
Aseptic threaded connection
Typical applications:• Life science/pharmaceutical
DIN 11864-1
TM03
803
0 03
07
Threaded connection
Typical applications:• Beverages• Food
DIN 11851
TM03
803
1 03
07
Threaded connection, SMSThreaded connection, DS
Typical applications:• Beverages• Food.
ISO 2037DS 722
TM03
803
2 03
07
Threaded connection, RJT
Typical applications:• Life science/pharmaceutical.
BS4825-5
TM03
836
4 11
07
Threaded connection, IDF
Typical applications:• Life science/pharmaceutical.
ISO 2853BS4825-4
TM03
836
3 11
07
Threaded connection (male), GAZ
Typical applications:• Beverages• Food• Industrial.
DIN ISO 228
TM03
871
6 23
07
To be sealed with thread tape
23
24
Connection selection guide Sanitary pumps
Description of components
Threaded connection (female)
Typical applications:• Industrial.
DIN EN 10226-1
TM03
871
7 23
07
To be sealed with thread tape
Pos. Description0120a Threaded connection in pump housing0120 Threaded connection0411 Circular joint ring0412 O-ring0925 Grooved union nut
Connection selection guide Sanitary pumps
Flanges
Description of components
Connection Standard Design
Aseptic flange
Typical applications:• Life science/pharmaceutical.
DIN 11864-2
TM03
803
3 03
07
Flange, APV-FN1/APV-FG1
Typical applications:• Beverages• Food.
ISO
TM03
803
4 03
07
Flange (fixed flange)Flange, ANSI 150 and 300 LB RF
Typical applications:• Industrial applications.
DIN EN 1092-1ANSI
TM03
803
5 03
07
Flange (loose flange)
Typical applications:• Industrial applications.
DIN EN 1092-1
TM03
803
6 03
07
Kremo flange
Typical applications:• Industrial applications.
DIN EN 1092-1
TM03
871
5 23
07
Pos. Description0122a Flanged connection in pump housing0122 Flanged connection0400 Gasket0410 Profile gasket0412 O-ring0901 Hexagon head screw0920 Hexagon nut
25
26
Connection selection guide Sanitary pumps
Clamps
Description of components
Connection Standard Design
ClampClampClampClamp Tri-Clamp®/Tri-Clover®
Typical applications:• Life science/pharmaceutical.
Clamp, ISO and SMS
Typical applications:• Food• Life science/pharmaceutical.
DIN 32676ISO 2852BS 4825-3ASME BPE
-
TM03
803
7 03
07
Pos. Description0121a Clamp connection in pump housing0121 Clamp connection0410 Profile gasket0501 Clamp ring
28
Sanitary pumpsConstruction
MotorThe motor is a totally enclosed, fan-cooled standard motor with main dimensions to IEC and DIN standards. Electrical tolerances to IEC 34.
Mounting designation
In humid locations, the lowest drain hole in the motor must be opened. In such cases, the motor enclosure class is IP 44.
Motor ranges
Euro-HYGIA® I
Euro-HYGIA® II
F&B-HYGIA® I
F&B-HYGIA® II
Contra I
Contra II
Pump rangeMounting designation to IEC 34-7
Horizontal installation Vertical installationEuro-HYGIA®
IM 1001 (IM B3)IM 3001 (IM B5)
IM 2001 (IM B35)
IM 1011 (IM V5)IM 3011 (IM V1)
IM 2011 (IM V15)
F&B-HYGIA®
ContraSIPLAMAXAMAXANAdurietta 0 IM 2001 (IM B35) IM 3011 (IM V1)
Relative air humidity: Max. 95 %Enclosure class: IP 55Insulation class: F, to IEC 85Ambient temperature: Max. 40 °C
(standard motors)Max. 60 °C (MG motors, EFF 1).
P2 kW 2-pole 4-pole0.550.751.11.52.23.04.05.5
The grey shaded areas indicate non-available motors.
P2 kW 2-pole 4-pole0.751.11.52.23.04.05.57.511.015.018.522.0
The grey shaded areas indicate non-available motors.
P2 kW 2-pole 4-pole1.11.52.23.04.05.5
The grey shaded areas indicate non-available motors.
P2 kW 2-pole 4-pole2.23.04.0
5.5 1)
7.511.015.018.5
The grey shaded areas indicate non-available motors.1) Not available as EFF 1 motor.
P2 kW
2-pole 4-pole1-
stag
e
2-st
age
3-st
age
4-st
age
5-st
age
6-st
age
1-st
age
0.550.751.11.52.23.04.05.5
The grey shaded areas indicate non-available motors.
P2 kW
2-pole 4-pole
1-st
age
2-st
age
3-st
age
4-st
age
5-st
age
1-st
age
0.751.11.52.23.04.05.57.511.015.018.5
The grey shaded areas indicate non-available motors.
Construction Sanitary pumps
durietta 0
SIPLA
MAXA, 2-pole
MAXA, 4-pole
MAXANA, 2-pole
MAXANA, 4-pole
P2 kW
2-pole 4-pole
1-st
age
2-st
age
3-st
age
4-st
age
5-st
age
6-st
age
1-st
age
0.250.550.751.52.2
The grey shaded areas indicate non-available motors.
P2 kW4-poleSize
3.1 6.1 12.1 18.1 28.1 52.1 65.1 90.10.751.11.52.23.04.05.57.511.015.018.522.0
The grey shaded areas indicate non-available motors.
P2 kW
2-poleSize
80-1
60
80-2
00
80-2
50
100-
200
100-
250
7.511.015.018.522.030.037.045.055.075.090.0
The grey shaded areas indicate non-available motors.
P2 kW
4-poleSize
80-1
60
80-2
00
80-2
50
80-3
15
100-
200
100-
250
100-
315
125-
250
125-
315
150-
250
150-
315
150-
400
200-
400
3.04.05.57.511.015.018.522.030.037.045.055.075.090.0
The grey shaded areas indicate non-available motors.
P2 kW
2-poleSize
32-1
60
32-2
00
40-1
60
40-2
00
50-1
25
50-1
60
50-2
00
65-1
25
65-1
60
65-2
00
65-2
50
2.23.04.05.57.511.015.018.522.030.037.045.055.0
The grey shaded areas indicate non-available motors.
P2 kW
4-poleSize
32-1
60
32-2
00
40-1
60
40-2
00
50-1
25
50-1
60
50-2
00
65-1
25
65-1
60
65-2
00
65-2
50
0.550.751.11.52.23.04.05.5
The grey shaded areas indicate non-available motors.
29
30
Construction Sanitary pumps
Electrical data of standard motors
2-pole, 3 x 220-240/380-415 V
2-pole, 3 x 380-415/660-690 V
4-pole, 3 x 220-240/380-415 V
4-pole, 3 x 380-415/660-690 V
Electrical data of EFF 1 MG motors
2-pole, 3 x 220-240 V Δ/380-415 V Y
2-pole, 3 x 380-415 V Δ
4-pole, 3 x 220-240 V Δ/380-415 V Y
4-pole, 3 x 380-415 V Δ
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]0.37 1.0 0.82 66 27400.55 1.36 0.82 71 28000.75 1.73 0.86 73 28551.1 2.40 0.87 77 28451.5 3.25 0.85 79 28602.2 4.55 0.85 82 2880
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]3.0 6.1 0.85 84 28904.0 7.8 0.86 86 29055.5 10.3 0.89 86.5 29257.5 13.8 0.89 88 293011.0 20.0 0.88 89.5 294015.0 26.5 0.90 90 294018.5 32.5 0.91 91 294022.0 39.0 0.88 91.7 294030.0 53.0 0.89 92.3 294537.0 65.0 0.89 92.8 294545.0 78.0 0.89 93.6 296055.0 96.0 0.88 93.6 297075.0 130.0 0.88 94.5 297590.0 154.0 0.89 95.1 2975
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]0.25 0.75 0.78 60 13500.55 1.45 0.82 67 13950.75 1.86 0.81 72 13951.1 2.55 0.81 77 14151.5 3.40 0.81 79 14202.2 4.70 0.82 82 1420
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]3.0 6.40 0.82 83 14204.0 8.20 0.83 85 14405.5 11.4 0.81 86 14557.5 15.2 0.82 87 145511.0 21.5 0.84 88.5 146015.0 28.5 0.84 90 146018.5 35.0 0.83 90.5 146022.0 41.0 0.84 91.2 146030.0 55.0 0.86 91.8 146537.0 66.0 0.87 92.9 147045.0 80.0 0.87 93.4 147055.0 100.0 0.85 93.5 148075.0 136.0 0.85 94.2 148590.0 160.0 0.86 94.6 1485
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]1.5 5.45/3.15 0.87-0.82 85.5 2890-29102.2 7.70/4.45 0.89-0.87 87.5 2890-29103.0 11.0/6.30 0.87-0.82 87.5 2900-29204.0 13.8/8.00 0.88-0.84 89.0 2910-29305.5 19.4/11.2 0.88-0.84 90.0 2910-29307.5 26.5/15.2 0.87-0.80 89.5 2900-292011.0 37.0/21.4 0.90 91.4 2920-2930
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]1.5 3.15 0.87-0.82 85.5 2890-29102.2 4.45 0.89-0.87 87.5 2890-29103.0 6.30 0.87-0.82 87.5 2900-29204.0 8.00 0.88-0.84 89.0 2910-29305.5 11.2 0.88-0.84 90.0 2910-29307.5 15.2 0.87-0.80 89.5 2900-292011.0 21.4 0.90 91.4 2920-2930
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]1.1 4.70/2.70 0.78-0.72 83.8 1440-14451.5 6.20/3.60 0.77-0.72 85.0 1440-14502.2 9.25/5.35 0.77-0.70 86.4 1440-14503.0 12.5/7.20 0.77-0.70 87.4 1440-14504.0 15.4/8.90 0.81-0.75 88.3 1450-1455
P2 [kW] I1/1 [A] cos ϕ η [%] n [min-1]1.1 2.70 0.78-0.72 83.8 1440-14451.5 3.60 0.77-0.72 85.0 1440-14502.2 5.35 0.77-0.70 86.4 1440-14503.0 7.20 0.77-0.70 87.4 1440-14504.0 8.90 0.81-0.75 88.3 1450-1455
Construction Sanitary pumps
Electrical data of standard motors with built-in fre-quency converter
2-pole, 3 x 380-415 V
4-pole, 3 x 380-415 V
The values depend on the motor make.
Motor protectionThree-phase motors must be connected to a motor pro-tective circuit breaker.
All three-phase standard motors can be connected to an external frequency converter. The connection of a frequency converter will often overload the motor insu-lation system, and the motor will be more noisy than during normal operation. In addition, large motors are loaded by bearing currents caused by the frequency converter.
In the case of frequency converter operation, bear in mind:
• In 2- and 4-pole motors of frame size 250 and up-wards, one of the motor bearings should be electri-cally isolated to prevent damaging currents from passing through the motor bearings.
• In the case of noise-sensitive applications, the mo-tor noise can be reduced by fitting a dU/dt filter be-tween the motor and the frequency converter. In particularly noise-sensitive applications, we rec-ommend to fit a sinusoidal filter.
• The length of the cable between motor and fre-quency converter affects the motor load. It should therefore be checked that the cable length meets the specifications laid down by the frequency con-verter supplier.
• For supply voltages between 500 and 690 V, fit a dU/dt filter to reduce voltage peaks or use a motor with reinforced insulation.
• For supply voltages of 690 V, use a motor with rein-forced insulation and fit a dU/dt filter.
P2 [kW] I1/1 [A]
1.1 2.41.5 3.252.2 4.553.0 6.14.0 7.85.5 10.37.5 13.8
P2 [kW] I1/1 [A]
1.1 2.551.5 3.42.2 4.73.0 6.44.0 8.25.5 11.47.5 15.2
31
32
Construction Sanitary pumps
Impeller typesGrundfos offers four impeller types suitable for different liquids and applications. Not all impeller types are avail-able for the complete product range.
Semi-open impeller
Fig. 27 Semi-open impeller
The electro-polished, stainless steel, semi-open-type impeller is available in three versions, according to the application.
For surface finish requirements, see page 37.
The impeller is suitable for low-viscosity liquids and liq-uids containing particles.
The semi-open-type impeller is not fitted in durietta 0.
Closed impellers
Fig. 28 Closed impellers
The two electro-polished, stainless steel, closed-type impellers are available in two versions, according to the application.
For surface finish requirements, see page 37.
The two-channel impeller is suitable for pumped liquids containing solid particles.
The closed impeller is suitable for pumped liquids with a low content of solid particles. This impeller type has the highest efficiency.
The closed-type impellers are not fitted in durietta 0.
Free-flow impeller
Fig. 29 Free-flow impeller
The electro-polished, stainless steel, free-flow-type impeller is available in two versions, according to the application.
For surface finish requirements, see page 37.
The non-clogging, free-flow impeller is designed for pumped liquids with a high content of solid particles or fibres.
Star impeller
Fig. 30 Star impeller
The electro-polished, cast, stainless steel star-type impeller is suitable for industrial/hygienic applications.
For surface finish requirements, see page 37.
The highly efficient, self-priming star impeller is suitable for pumped liquids with a low content of solid particles.
Surface treatmentAll non-wetted parts of the pumps receive the following surface treatment:
1. Priming colour– Epoxy resin (RAL 7032)– Thickness of film: 50 to 70 µm.
2. Top coat (standard)– Epoxy resin (RAL 5010)– Thickness of film: 50 to 70 µm.
The durietta 0 receives a single coat of polyurethane (RAL 5010) of a thickness of 30 to 40 µm.
GR
9394
Impeller version Application Surface finishCast Industrial/hygienic 3A0 to 3A1Welded Industrial/hygienic 3A0 to 3A1Milled Industrial/hygienic/sterile 3A2 to 3A3
GR
9391
- G
R93
92
Impeller version Application Surface finishCast Industrial/hygienic 3A0 to 3A1Welded Industrial/hygienic 3A0 to 3A1
Two-channel, closed Closed
GR
9393
Impeller version Application Surface finishCast Industrial/hygienic 3A0 to 3A1Welded Industrial/hygienic 3A0 to 3A1
GR
A03
93p
Impeller version Application Surface finishCast Industrial/hygienic 3A0 to 3A1
Sanitary pumpsShaft seals
Mechanical shaft sealThe operating range of the shaft seal depends on the type of shaft seal, the operating pressure and the liquid temperature.
The shaft seal types described below are standard seal types; other shaft seal types are available on request.
Hygienic applicationsAs standard, Grundfos offers a single shaft seal fitted with a metal spring as seal driver. The seal is suitable for hygienic applications.
Fig. 31 Single shaft seal for hygienic applications
The single shaft seal has carbon/stainless steel seal faces and EPDM or FKM O-rings.
Fig. 32 Operating range of shaft seal with metal spring as seal driver for hygienic applications
1: Carbon/stainless steel + EPDM2: Carbon/stainless steel + EPDM and carbon/stainless
steel + FKM.
Sterile applicationsAs standard, Grundfos offers a closed O-ring seal for sterile applications.
Fig. 33 Single shaft seal for sterile applications.
The O-ring seal has SiC/SiC seal faces and O-rings of EPDM (optionally FFKM (white) or FKM).
Fig. 34 Operating range of closed O-ring seal for sterile applications
Shaft seals for sanitary pumps
TM02
966
0 36
04TM
03 0
121
4104
10
5
00 -40 0 20 40 80
p [bar]
-20 60 100t [˚C]
15
21
TM02
966
4 36
04TM
03 0
118
4104
Shaft seal
Pump range
Euro
-HYG
IA®
F&B
-HYG
IA®
Con
tra
duri
etta
0
SIPL
A
MA
XA
MA
XAN
A
SingleQuenchTandem *Back-to-back *
StandardOn request
* Maximum 4 stages
SiC/
SiC/
EPDM
SiC/SiC/EPDMSiC/SiC/FFKMSiC/SiC/FKM
25
20
15
10
00 -40 0 20 40 80
p [bar]
5
-20 60 100t [˚C]
30
33
34
Shaft seals Sanitary pumps
Seal Code
Design standard
Material stationary and rotary ring
Material elastomere
3A2 001 19 a e E O 1Design standar
Seat
Shaft diameter
Material stationary ring
Material rotary ring
Material elastomere
Seal design
Spring design
3A Designation Standart Fe <[%] Surface Finish Ra < [nm] Material3A1 Industrial 3A0.01 - - Mixed material3A1 Hygienic 3A1.02 - 3,2 Mixed material3A2 Sterile 3A2.03 - 0,8 Mixed material3A2 Sterile 3A2.33 3 0,8 Mixed material3A3 Sterile 3A3.07 - 0,4 Mixed material3A3 Sterile 3A3.37 3 0,4 Mixed material3A2 Pharmaceutical 3A1.04 3 3,2 1.44353A2 Sterile 3A2.05 1 0,8 1.44353A3 Sterile 3A3.06 1 0,4 1.44353A1 Hygienic 3A1.L2 - 3,2 Mixed material wolfram carbide coated 200 um3A1 Hygienic 3A1.K2 - 3,2 Mixed material C-finished 33um3A1 Industrial 3A0.S1 - - Mixed material3AD Hygienic 3A1.62 - 3,2 1.44623A3 Sterile 3A3.X8 1 0,8 1.4435 crystalline Ra 0,4 um electropolished
a hard carbon , resin impr. (foodstuff quality)b Tungsten Carbide,shrunkc Ceramicd PTFE, glassfibre reinforcede stainless steelf hard carbon, antimony improvedg Tungsten carbide , solderedh Tungsten carbide, solidi Silicon carbide,shrunkk Silicon carbide, solidm SIC, solids SIC, shrunkY no spezification
E EPDMF FEP-S( Silicon FEP-wrapped)K Kalrez(FFKM)P Perbunan(NBR)S SiliconT Teflon(PTFE)V Viton(FKM)Y no specification
Shaft seals Sanitary pumps
Seal design
Spring design
A stationary ring with rotation StopB stationary ring bi-elastic mounted
C not incl. Hilge standard (3A3 / V-gap and groove)
D in standard dimension NE in standard dimension N with stopF in standard dimension KG in standard dimension K with stopO no explanation required
1 duo-directional2 left hand spring3 right hand spring4 Vacuum left hand spring5 Vacuum right hand spring6 encapsulated left hand spring7 encapsulated right hand springA MFL85N / MFL85S1B MG12G6C M7N / M7D HJ92NE HJ977GNF M78N / M78G Typ 502H Typ 502O no explanationR Roten RS3-S MF95 / MF95NT MG1G9U SHJ9SXL Typ 58UV M7S3
35
36
Sanitary pumpsCertification
Approvals and certificatesThe design, materials used and surface finish are sub-ject to a variety of national and international rules and regulations, such as the 3A Sanitary Standards, the EHEDG recommendations and the QHD criteria.
3A Sanitary Standards
Fig. 35 3A symbol
The 3A Sanitary Standards for design and manufacture provide material specifications and requirements for surface finish.
This ensures that dairy, food and other microbially sen-sitive products are protected from contamination and that all surfaces in contact with the products can be cleaned in place (CIP) or easily dismantled for manual cleaning.
The 3A symbol is used by manufacturers to indicate compliance with the 3A Sanitary Standards.
For information on the surface finish of sanitary pumps, see page 37.
EHEDG
Fig. 36 EHEDG symbol
The EHEDG (European Hygienic Engineering & Design Group) develops guidelines and test methods for the safe and hygienic processing of food.
This ensures the microbiological safety of the end prod-uct, for example the pumped medium.
The EHEDG symbol is used by manufacturers to indi-cate compliance with the EHEDG recommendations.
QHD
Fig. 37 QHD symbol
The QHD (Qualified Hygienic Design) is a two-phase testing system for the hygienic design and cleanability of components, machinery and plant for aseptic or ster-ile applications.
This ensures that all surfaces can be cleaned in place (CIP).
The QHD symbol is used by manufacturers to indicate compliance with the QHD criteria.
CertificatesGrundfos offers the following certificates and approv-als:
• Hygienic design certificates(certificates guaranteeing compliance with the 3A Sanitary Standards as well as the EHEDG and QHD criteria).
• Material certificates(certificates stating material specifications).
• Performance certificates(test reports guaranteeing and certifying test data of QH, current consumption, speed, curves, etc.).
• Authorized test by third party(surveyed performance test).
• ATEX-approved sanitary pumps(according to ATEX Directive 94/9/EC).
The certificates must be ordered with the pump.
A3
EHE
DG
QH
D
Certification Sanitary pumps
Surface finish of sanitary pumpsIn order to meet the demands of the pharmaceutical, food and beverage industries, Grundfos has developed the below surface finish requirements:
TM03
009
1 39
04
Certificate Standard3A hygienic design certificateEHEDG test reportQHD test reportMaterial specification reportMaterial report with certificateCE declaration of conformity ATEX-ap-proved pump Inspection certificate EN 10.204 3.1Inspection certificate- Lloyds Register of Shipping (LRS) - Det Norske Veritas (DNV)- Germanischer Lloyd (GL)- Bureau Veritas (BV), etc.
EN 10.204 3.1
Surface roughness reportMotor test reportStandard test report ISO 9906Vibration reportCertificate of compliance with the order EN 10.204 2.1Test report - non-specific inspection and testing EN 10.204 2.2
Report, Cleaned and dried pumpReport, Electro-polished pump
Code Application Material Surface finish3A0.01 Industrial CrNiMo steel3A1.02 Hygienic CrNiMo steel Ra ≤ 3.2 μm
3A2.03 Sterile 1.4404/1.4435(AISI 316L) Ra ≤ 0.8 μm
3A1.04 Pharmaceutical 1.4435, Fe ≤ 3 % Ra ≤ 3.2 μm3A2.05 Sterile 1.4435, Fe ≤ 1 % Ra ≤ 0.8 μm3A3.06 Sterile 1.4435, Fe ≤ 1 % Ra ≤ 0.4 μm
3A3.07 Sterile 1.4404/1.4435(AISI 316L) Ra ≤ 0.4 μm
3A2.33 Sterile1.4404/1.4435Fe ≤ 3 % (AISI 316L)
Ra ≤ 0.8 μm
3A3.37 Sterile1.4404/1.4435Fe ≤ 3 %(AISI 316L)
Ra ≤ 0.4 μm
37
38
Sanitary pumpsInstallation
Mechanical installationThe pump should never be installed with the motor pointing downwards.
Fig. 38 Installation
The pumps must be installed in such a way that strain from the pipework is not transferred to the pump hous-ing.
When installed outdoors, the motor must be provided with a suitable cover to avoid condensation on the elec-tronic components and to protect pump and motor against the direct effects of the elements.
Space requirementsVertical installation• Pumps fitted with motors up to and including 4 kW
require a 300 mm clearance above the motor. See fig. 39.
• Pumps fitted with motors of 5.5 kW and up require at least a 1 metre clearance above the motor to al-low the use of lifting equipment. See fig. 39.
Fig. 39 Vertical installation
Horizontal installation• Pumps fitted with motors up to and including 4 kW
require a 300 mm clearance behind the motor. See fig. 40.
• Pumps fitted with motors of 5.5 kW and up require a 300 mm clearance behind and a 1 metre clearance above the motor to allow the use of lifting equip-ment. See fig. 40.
Fig. 40 Horizontal installation
TM03
011
3 40
04TM
03 0
114
4004
0.55-4 kW 5.5-30 kW
300 mm 1 mTM
03 0
115
4004
0.55-4 kW
5.5-30 kW
300 mm
1 m
300 mm
Installation Sanitary pumps
Elimination of noise and vibrationIn order to achieve optimum operation and minimum noise and vibration, consider vibration dampening of the pump. Generally, always consider this for pumps with motors above 11 kW. Smaller motors, however, may also cause undesirable noise and vibration.
Noise and vibration are generated by the rotations in the motor and pump and by the flow in pipes and fit-tings. The effect on the environment is subjective and depends on correct installation and the state of the remaining system.
FoundationVibration dampening is best achieved by installing the pumps on a plane and rigid concrete foundation. See fig. 41.
Fig. 41 Example of foundation of a Contra II pump
As a rule of thumb, the weight of a concrete foundation should be 1.5 times the pump weight.
Vibration dampersTo prevent the transmission of vibrations to buildings, we recommend that you isolate the pump foundation from building parts by means of vibration dampers.
The selection of the right vibration damper requires these data:
• forces transmitted through the damper• motor speed considering speed control, if any• required dampening in % (suggested value is 70 %).Which is the right damper varies from installation to installation, and a wrong damper may increase the vibration level. Vibration dampers should therefore be sized by the supplier.
Expansion jointsIf you install the pump on a foundation with vibration dampers, always fit expansion joints on the pump flanges. This is important to prevent the pump from "hanging" in the flanges.
Install expansion joints to
• absorb expansions/contractions in the pipework caused by changing liquid temperature
• reduce mechanical strains in connection with pres-sure surges in the pipework
• isolate mechanical structure-borne noise in the pipework (only rubber bellows expansion joints).
Note: Do not install expansion joints to compensate for inaccuracies in the pipework such as centre displace-ment of flanges.
Fit expansion joints at a distance of minimum 1 to 1½ times the nominal flange diameter away from the pump on the suction as well as on the discharge side. This will prevent the development of turbulence in the expansion joints, resulting in better suction conditions and a mini-mum pressure loss on the discharge side. At high water velocities (> 5 m/s), we recommend you to install larger expansion joints corresponding to the pipework.
Expansion joints with limiting rods can be used to mini-mise the forces caused by the expansion joints. We always recommend expansion joints with limiting rods for flanges larger than DN 100.
The pipes should be anchored so that they do not stress the expansion joints and the pump. Follow the supplier’s instructions and pass them on to advisers or pipe installers.
Terminal box positionsThe terminal box positions shown in fig. 42 are possible for all pump ranges.
Fig. 42 Possible terminal box positions
TM03
011
6 40
04
Expansion joint
Vibration damper
TM03
011
7 40
04
12 o’clock 3 o’clock 9 o’clock
Concrete foundation
39
40
Sanitary pumpsCurve charts
How to read the curve charts
TM02
972
2 44
05
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
H[m]
MAXA 80-16050 Hz
/159/166
/173
/180
/187
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
0
5
10
15
20
P2[kW]
/159/166
/173
/180
/187
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
45
50
55
60
65
70
75
[%]Eta
/159/166
/173
/180
/187
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 10 20 30 40 50 Q [l/s]
/159/166
/173
/180/187
Pump type and frequency.
QH curve for the individual pump with a specific impeller diameter.
The power curve indicates pump input power [P2] for the individual pump with a specific impeller diameter.
The eta curve indicates the pump efficiency for the indi-vidual pump with a specific impeller diameter.
The NPSH curve indicates the Net Positive Suction Head of the individual pump with a specific impeller diameter.
Curve charts Sanitary pumps
Curve conditionsThe guidelines below apply to the curves shown on the following pages:
1. Tolerances to ISO 9906, Annex A.
2. QH curves of the individual pumps are shown with expected speed of a three-phase standard motor.
3. Measurements have been made with airless water at a temperature of +20 °C.
4. The curves apply to the following kinematic viscos-ity: υ = 1 mm2/s (1 cSt).
5. If the pumped liquid density and/or viscosity is higher than that of water, it may be necessary to use a motor with a higher performance.
1 kW < P2 < 10 kWFlow rate: ± 9 %Total head: ± 7 %Efficiency: up to –7 % *
* Efficiency of motor sizes below 10 kW are calculated on the basis of a formula stated in ISO 9906.
P2 > 10 kWFlow rate: ± 8 %Total head: ± 5 %Efficiency: –5 %
41
42
Performance curves/technical data
Euro-HYGIA® I2-pole
Euro-HYGIA® I4-pole
TM02
974
2 44
05
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
50
55
H[m]
Euro-HYGIA I50 Hz
/185
/155
/120
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
1
2
3
4
5
6
P2[kW]
/185
/155
/120
0 4 8 12 16 20 24 28 32 Q [m³/h]
25
30
35
40
45
50
55
60[%]Eta
/185/155
/120
0 4 8 12 16 20 24 28 32 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
[m]NPSH
0 2 4 6 8 10 Q [l/s]
/185
/155
/120
TM02
974
1 44
05
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
12
H[m]
Euro-HYGIA I50 Hz
/130
/155
/185
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
P2[kW]
/130
/155
/185
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
25
30
35
40
45
50
55
60[%]Eta
/130
/155
/185
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
[m]NPSH
0 1 2 3 4 5 Q [l/s]
/130
/155/185
Euro-HYGIA®I50 Hz
Technical data Euro-HYGIA®I50 Hz
Euro-HYGIA® I Adapta® on cast iron foot
Technical data
TM03
003
9 38
04Option
Annular housing with clamp ring (KLM)
P2 [kW] n [min-1] IEC sizeOn cast iron foot
b k3(1) u(1)
0.55 1450 80 0 245 145
0.75 1450 80 0 245 1451.1 2900 80 0 245 145
1.1 1450 90S 10 285 150
1.5 2900 90S 10 285 1501.5 1450 90L 10 285 150
2.2 2900 90L 10 285 150
2.2 1450 100L 20 320 1753.0 2900 100L 20 320 175
4.0 2900 112M 20 340 185
5.5 2900 132S 40 390 205
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 34.
(1) Motor dimensions depend on make; motor dimensions show maximum size(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
43
44
Technical data Euro-HYGIA®I50 Hz
Euro-HYGIA® I Adapta® SUPER on stainless steel combi foot(frame size 80-90)
Technical data
TM03
004
0 38
04
Option
Annular housing with clamp ring (KLM)
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH hH ∅ dH
0.55 1450 80 370 180 320
0.75 1450 80 370 180 320
1.1 2900 80 370 180 3201.1 1450 90S 370 180 320
1.5 2900 90S 370 180 320
1.5 1450 90L 370 180 3202.2 2900 90L 370 180 320
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 34.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Technical data Euro-HYGIA®I50 Hz
Euro-HYGIA® I Adapta® SUPER on stainless steel combi foot (frame size 100-132)
Technical data
TM03
004
1 38
04
Option
Annular housing with clamp ring (KLM)
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH hH ∅ dH
2.2 1450 100L 460 210 370
3.0 2900 100L 460 210 3704.0 2900 112M 460 210 370
5.5 2900 132S 510 240 420
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 34.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
45
46
Technical data Euro-HYGIA®I50 Hz
Euro-HYGIA® I Bloc on cast iron foot
Technical data
TM03
004
2 38
04Option
Annular housing with clamp ring (KLM)
P2 [kW] n [min-1] IEC sizeOn cast iron foot
k3(1) u(1)
0.55 1450 80 258 124
0.75 1450 80 258 124
1.1 2900 80 258 1241.1 1450 90S 282 130
1.5 2900 90S 282 130
1.5 1450 90L 282 1302.2 2900 90L 282 130
2.2 1450 100L 332 158
3.0 2900 100L 332 1584.0 2900 112M 391 171
5.5 2900 112M 391 171
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 34.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Technical data Euro-HYGIA®I50 Hz
Euro-HYGIA® I Bloc-SUPER on stainless steel combi foot
Technical data
TM03
004
3 38
04
Option
Annular housing with clamp ring (KLM)
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
l lH ∅ dH
0.55 1450 80 470 410 220
0.75 1450 80 470 410 220
1.1 2900 80 470 410 2201.1 1450 90S 470 410 220
1.5 2900 90S 470 410 220
1.5 1450 90L 470 410 2202.2 2900 90L 470 410 220
2.2 1450 100L 580 520 270
3.0 2900 100L 580 520 2704.0 2900 112M 580 520 270
5.5 2900 112M 580 520 270
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 34.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
47
48
Euro-HYGIA®II50 HzPerformance curves
Euro-HYGIA® II2-pole
Euro-HYGIA® II4-pole
TM02
974
6 44
05
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
10
20
30
40
50
60
70
80
90
H[m]
Euro-HYGIA II50 Hz
/190
/210
/230
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
5
10
15
20
25
P2[kW]
/190
/210/230
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
35
40
45
50
55
60
65
70[%]Eta
/190/210
/230
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 5 10 15 20 25 Q [l/s]
/190/210
/230
TM02
974
5 44
05
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
H[m]
Euro-HYGIA II50 Hz
/190
/210
/230
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
P2[kW]
/190
/210
/230
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
35
40
45
50
55
60
65
70[%]Eta
/190
/210
/230
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
[m]NPSH
0 2 4 6 8 10 12 14 Q [l/s]
/190
/210
/230
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Adapta® on Adapta® foot(frame size 180M)
Technical data
TM03
005
6 38
04
Option
P2 [kW] n [min-1] IEC sizeOn Adapta® foot
k3(1) u(1)
22.0 2900 180M 605 265
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Annular housing with clamp ring (KLM)
49
50
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Adapta® on cast iron foot(frame size 100-160)
Technical data
TM03
005
7 38
04
Annular housing with clamp ring (KLM)
Option
P2 [kW] n [min-1] IEC sizeOn cast iron foot
b k3(1) u(1)
2.2 1450 100L 0 320 1753.0 1450 100L 0 320 175
3.0 2900 100L 0 320 175
4.0 1450 112M 0 340 1854.0 2900 112M 0 340 185
5.5 1450 132S 20 390 205
5.5 2900 132S 20 390 2057.5 2900 132S 20 390 205
7.5 1450 132M 20 420 205
11.0 2900 160M 51 490 24015.0 2900 160M 51 490 240
18.5 2900 160L 51 530 240
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Adapta® SUPER on stainless steel combi foot (frame size 100-160)
Technical data
TM03
005
9 38
04
Annular housing with clamp ring (KLM)
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH hH ∅ dH
2.2 1450 100L 510 240 4203.0 1450 100L 510 240 420
3.0 2900 100L 510 240 420
4.0 1450 112M 510 240 4204.0 2900 112M 510 240 420
5.5 1450 132S 510 240 420
5.5 2900 132S 510 240 4207.5 2900 132S 510 240 420
7.5 1450 132M 510 240 420
11.0 2900 160M 650 285 485
15.0 2900 160M 650 285 48518.5 2900 160L 650 285 485
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Option
51
52
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Adapta® SUPER on machine pads(frame size 180)
Technical data
TM03
005
8 38
04
Option
P2 [kW] n [min-1] IEC size
22.0 2900 180M
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Annular housing with clamp ring (KLM)
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Bloc on cast iron foot(frame size 90-132)
Technical data
TM03
006
0 38
04215
250225
85
27.5
220
275
22
ø14
Annular housing with clamp ring (KLM)
Option
P2 [kW] n [min-1] IEC sizeOn cast iron foot
k3(1) u(1)
0.75 1450 90S 282 130
1.5 1450 90L 282 1301.5 2900 90S 282 130
2.2 2900 90L 282 130
2.2 1450 100L 312 1633.0 1450 100L 312 163
3.0 2900 100L 312 163
4.0 1450 112M 335 1764.0 2900 112M 335 176
5.5 1450 112M 371 176
5.5 2900 112M 371 1767.5 1450 132M 433 196
7.5 2900 132S 433 196
11.0 2900 132M 433 196
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
53
54
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Bloc on motor foot with stainless steel plinth(frame size 160)
Technical data
TM03
006
1 38
04
Annular housing with clamp ring (KLM)
Option
P2 [kW] n [min-1] IEC sizeOn motor foot with stainless steel plinth
k3(1) u(1) m1 m2 ∅ s n1 n2
15.0 2900 160M 522 226 310 250 13 410 380
18.5 2900 160L 562 226 310 250 13 410 380
22.0 2900 160L 562 226 310 250 13 410 380
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Bloc-SUPER on stainless steel combi foot(frame size 90-132)
Technical data
TM03
006
2 43
06
Annular housing with clamp ring (KLM)
Option
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
l lH ∅ dH
0.75 1450 90S 580 520 270
1.5 1450 90L 580 520 2701.5 2900 90S 580 520 270
2.2 2900 90L 580 520 270
2.2 1450 100L 580 520 2703.0 1450 100L 580 520 270
3.0 2900 100L 580 520 270
4.0 1450 112M 580 520 270
4.0 2900 112M 580 520 2705.5 1450 112M 580 520 270
5.5 2900 112M 580 520 270
7.5 1450 132M 660 600 3207.5 2900 132S 660 600 320
11.0 2900 132M 660 600 320
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
55
56
Euro-HYGIA®II50 HzTechnical data
Euro-HYGIA® II Bloc-SUPER on stainless steel combi foot(frame size 160)
Technical data
TM03
006
3 38
04
Annular housing with clamp ring (KLM)
Option
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
l lH ∅ dH
15.0 2900 160M 810 750 35018.5 2900 160L 810 750 350
22.0 2900 160L 810 750 350
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 35.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(8) Option: Drain-Gemü DN 15 diaphragm valve. Drain-clamp connection to DIN 32 676 DN 15 (45° angle).
57
58
F&B-HYGIA® I50 HzPerformance curves
F&B-HYGIA® I2-pole
F&B-HYGIA® I4-pole
TM03
359
3 04
06
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
50
55
H[m]
F&B-HYGIA I50 Hz
/120
/155
/185
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
1
2
3
4
5
6
P2[kW]
/120
/155
/185
0 4 8 12 16 20 24 28 32 Q [m³/h]
25
30
35
40
45
50
55
60[%]Eta
/120
/155/185
0 4 8 12 16 20 24 28 32 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
[m]NPSH
0 2 4 6 8 10 Q [l/s]
/120/155
/185
TM03
359
2 04
06
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
12
H[m]
F&B-HYGIA I50 Hz
/130
/155
/185
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
P2[kW]
/130
/155
/185
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
25
30
35
40
45
50
55
60[%]Eta
/130
/155
/185
0 2 4 6 8 10 12 14 16 18 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
[m]NPSH
0 1 2 3 4 5 Q [l/s]
/130
/155/185
F&B-HYGIA® I50 HzTechnical data
F&B-HYGIA® I K on motor foot
Technical data
TM03
379
1 10
06
P2 [kW] n [min-1] IEC sizeOn motor foot
k3 u a m2 n2 n1 s1 h1 o
1.1 1450 90S 3212811)
110 227.5 100 140 178 10 90 60
1.5 2900 90S 281 110 227.5 100 140 178 10 90 60
1.5 1450 90L 3212811)
110 227.5 100 140 178 10 90 60
2.2 2900 90L 3212811)
110 227.5 100 140 178 10 90 60
2.2 1450 100L 335 110 234 140 160 178 12 100 50
3.0 2900 100L 335 110 234 140 160 178 12 100 504.0 2900 112M 372 134 241 140 190 228 12 112 38
5.5 2900 132S 391 134 260 140 216 255 12 132 18
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.
59
60
F&B-HYGIA® I50 HzTechnical data
F&B-HYGIA® I K on cast iron foot
Technical data
TM03
379
2 10
06
P2 [kW] n [min-1] IEC sizeOn cast iron foot
k3 u
1.1 1450 90S 3212811)
110
1.5 2900 90S 281 1101.5 1450 90L 321
2811)110
2.2 2900 90L 3212811)
110
2.2 1450 100L 335 110
3.0 2900 100L 335 110
4.0 2900 112M 372 1345.5 2900 132S 391 134
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.
F&B-HYGIA® I50 HzTechnical data
F&B-HYGIA® I K on combi foot
Technical data
TM03
378
9 10
06
P2 [kW] n [min-1] IEC sizeOn combi foot
k3 u
1.1 1450 90S 3212811)
110
1.5 2900 90S 281 110
1.5 1450 90L 3212811)
110
2.2 2900 90L 3212811)
110
2.2 1450 100L 335 110
3.0 2900 100L 335 110
4.0 2900 112M 372 1345.5 2900 132S 391 134
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motors.
61
62
F&B-HYGIA® I50 HzTechnical data
F&B-HYGIA® I K SUPER on combi foot
Technical data
TM03
379
0 10
06
P2 [kW] n [min-1] IEC sizeOn combi foot
l lH hH ∅ dH
1.1 1450 90S 5914811)
4263161)
160 320
1.5 2900 90S 481 316 160 320
1.5 1450 90L 5914811)
4263161)
160 320
2.2 2900 90L 5914811)
4263161)
160 320
2.2 1450 100L 591 426 160 3203.0 2900 100L 591 426 160 320
4.0 2900 112M 591 426 160 320
5.5 2900 132S 591 426 160 320
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.
63
64
F&B-HYGIA® II50 HzPerformance curves
F&B-HYGIA® II2-pole
F&B-HYGIA® II4-pole
TM03
359
5 04
06
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
10
20
30
40
50
60
70
80
90
H[m]
F&B-HYGIA II50 Hz
/190
/210
/230
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
5
10
15
20
P2[kW]
/190/210/230
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
35
40
45
50
55
60
65
70[%]Eta
/190
/210
/230
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 5 10 15 20 25 Q [l/s]
/190
/210/230
TM03
359
4 04
06
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
H[m]
F&B-HYGIA II50 Hz
/190
/210
/230
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
P2[kW]
/190
/210
/230
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
35
40
45
50
55
60
65
70[%]Eta
/190/210
/230
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
[m]NPSH
0 2 4 6 8 10 12 14 Q [l/s]
/190
/210
/230
F&B-HYGIA® II50 HzTechnical data
F&B-HYGIA® II K on motor foot
Technical data
TM03
379
4 10
06
P2 [kW] n [min-1] IEC sizeOn motor foot
k3 u a m2 n2 n1 s1 h1 o
2.2 1450 100L 335 110 265 140 160 178 12 100 75
3.0 1450 100L 335 110 265 140 160 178 12 100 753.0 2900 100L 372 134 265 140 160 178 12 100 75
4.0 1450 112M 372 134 272 140 190 228 12 112 63
4.0 2900 112M 372 134 272 140 190 228 12 112 635.5 1450 132S 391 134 291 140 216 255 12 132 43
5.5 2900 132S 391 134 291 140 216 255 12 132 43
7.5 2900 132S 391 134 291 140 216 255 12 132 4311.0 2900 160M 499
4641)172 309 210 254 302 15 160 15
15.0 2900 160M 500 255 309 210 254 - 15 160 15
18.5 2900 160L 555 255 309 254 254 - 15 160 15
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
Motors up to 11 kW are Grundfos MG motors. The EFF 1 MG motor is not available as 5.5 kW, 4-pole.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.15 kW and 18.5 kW are Siemens motors.
65
66
F&B-HYGIA® II50 HzTechnical data
F&B-HYGIA® II K on cast iron foot
Technical data
TM03
379
8 10
06
P2 [kW] n [min-1] IEC sizeOn cast iron foot
k3 u
2.2 1450 100L 335 110
3.0 1450 100L 335 110
3.0 2900 100L 372 1344.0 1450 112M 372 134
4.0 2900 112M 372 134
5.5 1450 132S 391 1345.5 2900 132S 391 134
7.5 2900 132S 391 134
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors. The EFF 1 MG motor is not available as 5.5 kW, 4-pole.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.
F&B-HYGIA® II50 HzTechnical data
F&B-HYGIA® II K on combi foot(frame size 100-132)
Technical data
TM03
379
7 10
06
P2 [kW] n [min-1] IEC sizeOn combi foot
k3 u
2.2 1450 100L 335 110
3.0 2900 100L 335 110
3.0 1450 112M 372 1344.0 1450 112M 372 134
4.0 2900 112M 372 134
5.5 1450 132S 391 1345.5 2900 132S 391 134
7.5 2900 132S 391 134
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors. The EFF 1 MG motor is not available as 5.5 kW, 4-pole.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.
67
68
F&B-HYGIA® II50 HzTechnical data
F&B-HYGIA® II K on combi foot(frame size 160)
Technical data
TM03
389
6 11
06
P2 [kW] n [min-1] IEC sizeOn combi foot
k3 u
11.0 2900 160M 4994641)
172
15.0 2900 160M 500 255
18.5 2900 160L 555 255
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
11 kW is a Grundfos MG motor.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.15 kW and 18.5 kW are Siemens motors.
F&B-HYGIA® II50 HzTechnical data
F&B-HYGIA® II K SUPER on combi foot(frame size 100-132)
Technical data
TM03
379
6 10
06
P2 [kW] n [min-1] IEC sizeOn combi foot
l lH hH ∅ dH
2.2 1450 100L 702 506 185 370
3.0 1450 100L 702 506 185 370
3.0 2900 100L 702 506 185 3704.0 1450 112M 702 506 185 370
4.0 2900 112M 702 506 185 370
5.5 1450 132S 702 506 185 3705.5 2900 132S 702 506 185 370
7.5 2900 132S 702 506 185 370
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
All motors are Grundfos MG motors. The EFF 1 MG motor is not available as 5.5 kW, 4-pole.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.
69
70
F&B-HYGIA® II50 HzTechnical data
F&B-HYGIA® II K SUPER on combi foot(frame size 160)
Technical data
TM03
378
8 10
06
P2 [kW] n [min-1] IEC sizeOn combi foot
l lH hH ∅ dH
11.0 2900 160M 7787021)
5835061)
282.51851)
4853701)
15.0 2900 160M 778 583 282.5 48518.5 2900 160L 778 583 282.5 485
Dimensions depend on housing size (DNs, DNd, a1, h2, e1). See table of connections, page 36.
11 kW is a Grundfos MG motor.1) Indicates the dimensions of the EFF 2 MG motor when they differ from the dimensions of the EFF 1 MG motor.15 kW and 18.5 kW are Siemens motors.
71
72
Contra I50 HzPerformance curves
Contra I2-pole
TM02
974
9 44
05
0 2 4 6 8 10 12 14 16 18 20 Q [m³/h]
0
10
20
30
40
50
60
70
80
90
100
110
H[m]
Contra I50 Hz
-1
-2
-3
-4
-5
-6
0 2 4 6 8 10 12 14 16 18 20 Q [m³/h]
0
1
2
3
4
5
6
P2[kW]
-1
-2
-3
-4
-5
-6
0 2 4 6 8 10 12 14 16 18 20 Q [m³/h]
20
25
30
35
40
45
50
55[%]Eta
-1
-2
-3
-4-5
-6
0 2 4 6 8 10 12 14 16 18 20 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 1 2 3 4 5 6 Q [l/s]
-1
-2
-3
-4-5
-6
Contra I50 HzTechnical data
Contra I Adapta® on cast iron foot
Technical data
TM03
006
4 38
04
P2 [kW] n [min-1] IEC sizeOn cast iron foot
b k3(1) u(1)
0.55 1450 80 - 245 145
0.75 1450 80 - 245 145
0.75 2900 80 - 245 1451.1 2900 80 - 245 145
1.1 1450 90S 10 285 150
1.5 2900 90S 10 285 1501.5 1450 90L 10 285 150
2.2 2900 90L 10 285 150
2.2 1450 100L 20 320 1753.0 2900 100L 20 320 175
4.0 2900 112M 20 340 185
5.5 2900 132S 40 390 205
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 37.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) Coupling of our choice.
73
74
Contra I50 HzTechnical data
Contra I Adapta® SUPER on stainless steel combi foot(frame size 80-90)
Technical data
TM03
006
5 38
04
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH hH ∅ dH
0.55 1450 80 370 180 3200.75 1450 80 370 180 320
0.75 2900 80 370 180 320
1.1 2900 80 370 180 3201.1 1450 90S 370 180 320
1.5 2900 90S 370 180 320
1.5 1450 90L 370 180 3202.2 2900 90L 370 180 320
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 37.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) Coupling of our choice.
Contra I50 HzTechnical data
Contra I Adapta® SUPER on stainless steel combi foot(frame size 100-132)
Technical data
TM03
006
6 38
04
404 300
320
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH hH ∅ dH
2.2 1450 100L 460 210 3703.0 2900 100L 460 210 370
4.0 2900 112M 460 210 370
5.5 2900 132S 510 240 420
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 37.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) Coupling of our choice.
75
76
Contra I50 HzTechnical data
Contra I Adapta®-V on stainless steel pedestal with/without suction elbow
Technical data
TM03
006
7 38
04
For installing, removing and servicing the pump, lifting points should be arranged directly above the pump and removable lengths incor-porated into the suction line.
P2 [kW] n [min-1] IEC sizeOn stainless steel pedestal with/without suction elbow
b k3(1) u(1)
0.55 1450 80 0 245 145
0.75 1450 80 0 245 145
0.75 2900 80 0 245 1451.1 2900 80 0 245 145
1.1 1450 90S 10 285 150
1.5 2900 90S 10 285 1501.5 1450 90L 10 285 150
2.2 2900 90L 10 285 150
2.2 1450 100L 20 320 1753.0 2900 100L 20 320 175
4.0 2900 112M 20 340 185
5.5 2900 132S 40 390 205
Dimensions depend on housing size (DNs, DNd, a1, e5, f2, h2, h3). See table of connections, page 37.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) Coupling of our choice.
Contra I50 HzTechnical data
Contra I Bloc on cast iron foot
Technical data
TM03
006
8 38
04
P2 [kW] n [min-1] IEC sizeOn cast iron foot
k3(1) u(1)
0.55 1450 80 258 124
0.75 1450 80 258 124
0.75 2900 80 258 1241.1 2900 80 258 124
1.1 1450 90S 282 130
1.5 2900 90S 282 1301.5 1450 90L 282 130
2.2 2900 90L 282 130
2.2 1450 100L 332 1583.0 2900 100L 332 158
4.0 2900 112M 391 171
5.5 2900 112M 391 171
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 37.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.
77
78
Contra I50 HzTechnical data
Contra I Bloc-SUPER on stainless steel combi foot
Technical data
TM03
006
9 38
04
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH ∅ dH
0.55 1450 80 410 220
0.75 1450 80 410 220
0.75 2900 80 410 2201.1 2900 80 410 220
1.1 1450 90S 410 220
1.5 2900 90S 410 2201.5 1450 90L 410 220
2.2 2900 90L 410 220
2.2 1450 100L 520 2703.0 2900 100L 520 270
4.0 2900 112M 520 270
5.5 2900 112M 520 270
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 37.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.
79
80
Contra II50 HzPerformance curves
Contra II2-pole
TM02
975
0 44
05
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
160
H[m]
Contra II50 Hz
-1
-2
-3
-4
-5
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0
4
8
12
16
20
24
P2[kW]
-1
-2
-3
-4
-5
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
25
30
35
40
45
50
55
60[%]Eta
-1
-2
-3
-4
-5
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0
1
2
3
4
5
6
7[m]
NPSH
0 2 4 6 8 10 12 14 Q [l/s]
-1
-2
-3-4
-5
Contra II50 HzTechnical data
Contra II Adapta® on cast iron foot
Technical data
TM03
007
0 38
04
P2 [kW] n [min-1] IEC sizeOn cast iron foot
b k3(1) u(1)
3.0 2900 100L - 320 1754.0 1450 112M - 340 185
4.0 2900 112M - 340 185
5.5 1450 132S 20 390 2055.5 2900 132S 20 390 205
7.5 2900 132S 20 390 205
7.5 1450 132M 20 420 20511.0 2900 160M 51 490 240
15.0 2900 160M 51 490 240
18.5 2900 160L 51 530 240
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 40.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.
81
82
Contra II50 HzTechnical data
Contra II Adapta® SUPER on stainless steel combi foot(frame size 100-160)
Technical data
TM03
007
1 38
04
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
lH hH ∅ dH
3.0 2900 100L 510 240 420
4.0 1450 112M 510 240 420
4.0 2900 112M 510 240 4205.5 1450 132S 510 240 420
5.5 2900 132S 510 240 420
7.5 2900 132S 510 240 4207.5 1450 132M 510 240 420
11.0 2900 160M 650 285 485
15.0 2900 160M 650 285 48518.5 2900 160L 650 285 485
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 40.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.
Contra II50 HzTechnical data
Contra II Adapta®-V on stainless steel pedestal with/without suction elbow (frame size 100-160)
Technical data
TM03
007
2 25
07
For installing, removing and servicing the pump, lifting point should be arranged directly above the pump and removable lengths incorporated into the suction line.The discharge port is asymmetric; the pump can be drained completely.
75
P2 [kW] n [min-1] IEC sizeOn stainless steel pedestal with/without suction elbow
b k3(1) u(1)
2.2 1450 100L 0 320 175
3.0 1450 100L 0 320 1753.0 2900 100L 0 320 175
4.0 1450 112M 0 340 185
4.0 2900 112M 0 340 1855.5 1450 132S 20 390 205
5.5 2900 132S 20 390 205
7.5 2900 132S 20 390 2057.5 1450 132M 20 420 205
11.0 2900 160M 51 490 240
15.0 2900 160M 51 490 24018.5 2900 160L 51 530 240
Dimensions depend on housing size (DNs, DNd, a1, f2, h2, h3, e1, e5). See table of connections, page 40.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(7) N-Eupex coupling.
83
84
Contra II50 HzTechnical data
Contra II Bloc on cast iron foot(frame size 90-132)
Technical data
TM03
007
3 38
04
P2 [kW] n [min-1] IEC sizeOn cast iron foot
k3(1) u(1)
0.75 1450 90S 282 1301.1 1450 90S 282 130
1.5 1450 90L 282 130
1.5 2900 90S 282 1302.2 2900 90L 282 130
2.2 1450 100L 312 163
3.0 1450 100L 312 1633.0 2900 100L 312 163
4.0 2900 112M 335 176
4.0 1450 112M 335 176
5.5 2900 112M 371 1767.5 2900 132S 433 196
11.0 2900 132M 433 196
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 40.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.
Contra II50 HzTechnical data
Contra II Bloc-SUPER on stainless steel combi foot(frame size 90-132)
Technical data
TM03
007
4 38
04
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
l lH ∅ dH
0.75 1450 90S 561 520 270
1.1 1450 90S 561 520 270
1.5 1450 90L 561 520 2701.5 2900 90S 561 520 270
2.2 2900 90L 561 520 270
2.2 1450 100L 561 520 2703.0 1450 100L 561 520 270
3.0 2900 100L 561 520 270
4.0 2900 112M 561 520 2704.0 1450 112M 561 520 270
5.5 2900 112M 561 520 270
7.5 2900 132S 641 600 32011.0 2900 132M 641 600 320
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 40.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.
85
86
Contra II50 HzTechnical data
Contra II Bloc-SUPER on stainless steel combi foot(frame size 160)
Technical data
TM03
007
5 38
04M12
ø50
P2 [kW] n [min-1] IEC sizeOn stainless steel combi foot
l lH ∅ dH
15.0 2900 160M 791 750 350
18.5 2900 160L 791 750 350
Dimensions depend on housing size (DNs, DNd, a1, f2, h2). See table of connections, page 40.
(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.
87
88
durietta 050 HzPerformance curves
durietta 02-pole
durietta 04-pole
TM03
405
6 14
06
0 1 2 3 4 5 Q [m³/h]
0
10
20
30
40
50
60
70
H[m]
durietta 050 Hz
-1
-2
-3
-4
-5
-6
0 1 2 3 4 5 Q [m³/h]
0.0
0.4
0.8
1.2
1.6
2.0
P2[kW]
0.0 0.5 1.0 1.5 Q [l/s]
-1-2-3
-4
-5-6
TM03
405
7 14
06
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
H[m]
durietta 050 Hz
-1
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Q [m³/h]
0.18
0.19
0.20
0.21
0.22
0.23
P2[kW]
0.0 0.2 0.4 0.6 0.8 1.0 Q [l/s]
-1
durietta 050 HzTechnical data
durietta 0 K on motor foot
Technical data
TM03
378
5 10
06
P2 [kW] n [min-1] IEC size Stage D E F G H U Net weight [kg]
0.25 1500 71 1 90 45 71 112 212 102 10
0.55 3000 71 1 90 45 71 112 212 102 10
0.55 3000 71 2 90 45 71 112 212 102 11
0.75 3000 71 2 90 45 71 112 212 102 110.75 3000 71 3 90 45 71 112 212 102 11.5
1.5 3000 90S 4 100 56 90 140 255 123 15
1.5 3000 90S 5 100 56 90 140 255 123 202.2 3000 90L 5 125 56 90 140 282 123 22
2.2 3000 90L 6 125 56 90 140 282 123 25
Dimensions depend on housing size (DNs, DNd, A, A’, B(1), B’(2), C, J, K). See table of connections, page 43.
(1) Add 37.5 mm for pumps with double mechanical seal. 5- and 6-stage pumps are not available with double mechanical seal.
89
90
durietta 050 HzTechnical data
durietta 0 K SUPER on stainless steel combi foot
Technical data
TM03
378
4 10
06
P2 [kW] n [min-1] IEC size Stage D' E' F' G' H' U' I' L ±5 Net weight [kg]
0.25 1500 71 1 145 10 87 150 235 200 180 14 11
0.55 3000 71 1 145 10 87 150 235 200 180 14 110.55 3000 71 2 145 10 87 150 235 200 180 14 12
0.75 3000 71 2 145 10 87 150 235 200 180 14 12
0.75 3000 71 3 145 10 87 150 235 200 200 14 131.5 3000 90S 4 210 15 110 170 300 250 200 40 16
1.5 3000 90 5 210 15 110 170 300 250 200 40 17
2.2 3000 90 5 210 30 110 170 300 250 200 40 182.2 3000 90 6 210 30 110 170 300 250 200 40 19
Dimensions depend on housing size (DNs, DNd, A, A’, B(1), B’(2), C, J, K). See table of connections, page 43.
(2) Add 37.5 mm for pumps with double mechanical seal. 5- and 6-stage pumps are not available with double mechanical seal.
durietta 050 HzTechnical data
durietta 0 K-V
Technical data
TM03
378
3 10
06
(1)
B
P2 [kW] n [min-1] IEC size Stage H'' U'' Net weight [kg]
0.75 3000 71 1 243 123 10
0.75 3000 71 2 243 123 110.75 3000 71 3 243 123 12
1.5 3000 90S 3 243 123 12.5
1.5 3000 90S 4 243 123 131.5 3000 90S 5 243 133 14
2.2 3000 90L 5 269 133 15
2.2 3000 90L 6 269 133 16
Dimensions depend on housing size (DNs, DNd, A, A’, B(1), B’(2), C, J, K). See table of connections, page 43.
(1) Add 37.5 mm for pumps with double mechanical seal. 5- and 6-stage pumps are not available with double mechanical seal.
91
92
SIPLA50 HzPerformance curves
SIPLA3.1 and 6.1, 4-pole
SIPLA12.1, 18.1 and 28.1, 4-pole
TM02
968
3 23
07
0 1 2 3 4 5 6 Q [m³/h]
0
5
10
15
20
25
30
35
40
H[m]
SIPLA50 Hz
3.1
6.1
0 1 2 3 4 5 6 Q [m³/h]
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
P2[kW]
3.1 6.1
0 1 2 3 4 5 6 Q [m³/h]
8
10
12
14
16
18
20
22
24[%]Eta
3.1
6.1
0 1 2 3 4 5 6 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0.0 0.5 1.0 1.5 Q [l/s]
3.1
6.1
TM02
968
5 23
07
0 4 8 12 16 20 24 28 Q [m³/h]
0
5
10
15
20
25
30
35
40
H[m]
SIPLA50 Hz
28.112.1
18.1
0 4 8 12 16 20 24 28 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
P2[kW]
28.1
12.1
18.1
0 4 8 12 16 20 24 28 Q [m³/h]
1012141618202224262830
[%]Eta
28.112.1
18.1
0 4 8 12 16 20 24 28 Q [m³/h]
0
1
2
3
4
5
6
7
8[m]
NPSH
0 2 4 6 8 Q [l/s]
12.1
18.128.1
SIPLA50 HzPerformance curves
SIPLA52.1, 65.1 and 90.1, 4-pole
TM02
968
9 23
07
0 10 20 30 40 50 60 70 Q [m³/h]
0
10
20
30
40
50
60
H[m]
SIPLA50 Hz
65.152.190.1
0 10 20 30 40 50 60 70 Q [m³/h]
24
68
1012
14161820
P2[kW]
65.1
52.1
90.1
0 10 20 30 40 50 60 70 Q [m³/h]
5
10
15
20
25
30
[%]Eta
65.152.1
90.1
0 10 20 30 40 50 60 70 Q [m³/h]
1
2
3
4
5
6
7
8[m]
NPSH
0 5 10 15 20 Q [l/s]
52.165.1
93
94
SIPLA50 HzTechnical data
SIPLA Adapta® on cast iron foot
Technical data
1) The pumps are fitted with oversized motors for the pumping of high-viscosity liquids.
TM02
965
5 36
04
Pump type
DNs/DNd
a lPump Motor On cast iron foot
e l5 l6IEC size
P2 [kW]
k3 Size w1 m2 n1 n2 s1/s2 h1 h2 l7
3.1 32 145 598 100 40 108 80M 0.75 269 I 105 220 250 215 24/14 200 150 221
6.1/ 12.1
40 161 640 120 56 137 90L 1.5 282 I 105 220 250 215 24/14 200 150 221 40 161 691 120 56 137 100L 2.2 1) 313 I 105 220 250 215 24/14 200 150 241
18.1
50 174 734 170 52 158 100L 3.0 313 II 122 220 250 215 24/14 225 170 263
50 174 755 170 52 158 112M 4.0 1) 334 II 122 220 250 215 24/14 225 170 263
50 174 795 170 52 158 132S 5.5 1) 374 II 122 220 250 215 24/14 225 170 263
50 174 795 170 52 158 132S 7.5 1) 374 II 122 220 250 215 24/14 225 170 263
28.1
65 178 762 170 56 165 112M 4.0 334 II 122 220 250 215 24/14 225 170 263 65 178 822 170 170 165 132S 5.5 1) 374 II 122 220 250 215 24/14 225 170 283
65 178 822 170 170 165 132S 7.5 1) 374 II 122 220 250 215 24/14 225 170 283
52.1 65 178 836 170 56 179 132M 7.5 374 II 122 220 250 215 24/14 225 200 283
65 178 971 170 56 179 160M 11.0 1) 478 II 122 220 250 215 24/14 225 200 314
65.1
80 204 1170 240 68 221 160L 15.0 478 III 136 220 270 220 17.5 225 200 471 80 204 1294 240 68 221 180M 18.5 1) 602 III 136 220 270 220 17.5 225 200 471
80 204 1294 240 68 221 180L 22.0 1) 602 III 136 220 270 220 17.5 225 200 471
90.1 80 204 1300 240 68 227 180M 18.5 602 III 136 220 270 220 17.5 225 200 471
80 204 1300 240 68 227 180L 22.0 1) 602 III 136 220 270 220 17.5 225 200 471
SIPLA50 HzTechnical data
SIPLA Adapta® SUPER on combi foot
Technical data
1) The pumps are fitted with oversized motors for the pumping of high-viscosity liquids.
TM02
965
6 36
04
Pump type
DNs/DNd
a l h1 h2 h3
Pump Motor AD On combi foot Shroud
e l5 l6IEC size
P2 [kW] Size l7' Size m2 n2 Size p k3'
3.1 32 138 682 200 150 380 100 40 108 80M 0.75 I 204 I 300 260 1.1 320 370
6.1/ 12.1
40 154 711 200 150 380 120 56 137 90L 1.5 I 204 I 300 260 1.1 320 370
40 154 801 200 150 410 120 56 137 100L 2.2 1) I 204 II 404 300 1.2 370 460
18.1
50 167 914 220 170 460 170 52 158 100L 3.0 II 246 II 404 300 2.2 420 510 50 167 914 220 170 460 170 52 158 112M 4.0 1) II 246 II 404 300 2.2 420 510
50 167 914 220 170 460 170 52 158 132S 5.5 1) II 246 II 404 300 2.2 420 510
50 167 914 220 170 460 170 52 158 132M 7.5 1) II 246 II 404 300 2.2 420 510
28.1
65 171 921 220 170 460 170 56 165 112M 4.0 II 246 II 404 300 2.2 420 510
65 171 921 220 170 460 170 56 165 132S 5.5 1) II 246 II 404 300 2.2 420 510
65 171 921 220 170 460 170 56 165 132M 7.5 1) II 246 II 404 300 2.2 420 510
52.1 65 171 935 220 200 460 170 56 179 132M 7.5 II 246 II 404 300 2.2 420 510
65 171 1074 220 200 503 170 56 179 160M 11.0 1) II 245 II 404 300 2.3 485 650
95
96
SIPLA50 HzTechnical data
SIPLA Bloc on motor foot
Technical data
1) The pumps are fitted with oversized motors for the pumping of high-viscosity liquids.TM
02 9
657
3604
Pump type
DNs/DNd
a l o h2Pump Motor
e l5 l6 IEC size P2 [kW] h1 k3 m2 n1 n2 s1 w1
3.1 32 90 377 20 150 100 40 108 80M 0.75 80 269 100 150 125 9.5 50 6.1/12.1 40 134 464 2 150 120 56 137 100L 1.5 100 327 140 196 160 12 78
6.1/12.1 40 134 464 2 150 120 56 137 100L 2.2 1) 100 327 140 196 160 12 78
18.1 50 130 485 25 170 170 52 158 100L 3.0 100 327 140 196 160 12 78
18.1 50 142 511 13 170 170 52 158 112M 4.0 1) 112 353 140 226 190 12 90
18.1 50 141 511 0 170 170 52 158 132S 5.5 1) 132 393 140 256 216 15 89
18.1 50 141 511 0 170 170 52 158 132M 7.5 1) 132 393 178 256 216 15 89
28.1 65 146 518 13 170 170 56 165 112M 4.0 112 353 140 226 190 12 90
28.1 65 145 558 0 170 170 56 165 132S 5.5 1) 132 393 140 256 216 15 89
28.1 65 145 558 0 170 170 56 165 132M 7.5 1) 132 393 178 256 216 15 89
52.1 65 145 553 18 200 170 56 179 132M 7.5 132 374 178 256 216 15 89
52.1 65 145 589 18 200 170 56 179 132M 11.0 1) 132 410 178 256 216 18 89
65.1 80 176 699 25 200 240 68 221 160L 15.0 160 478 254 300 254 15 108
65.1 80 189 823 0 200 240 68 221 180M 18.5 1) 180 602 241 339 279 18 121
65.1 80 189 823 0 200 240 68 221 180M 22.0 1) 180 602 279 339 279 18 121
90.1 80 189 829 0 200 240 68 227 180M 18.5 180 602 241 339 279 18 121
90.1 80 189 829 0 200 240 68 227 180L 22.0 1) 180 602 279 339 279 18 121
Technical data SIPLA50 Hz
SIPLA Bloc-SUPER on stainless steel ball feet
Technical data
1) The pumps are fitted with oversized motors for the pumping of high-viscosity liquids.TM
02 9
658
3604
Pump type
DNs/DNd h1 h2 l n mPump Motor Shroud
e l6' a c IEC size P2 [kW] p k3'
3.1 32 155 150 508 200 220 100 98 0 67 80M 0.75 224 410
6.1/12.1 40 200 150 608 220 247 120 128 7 74 100L 1.5 274 480 40 200 150 608 220 247 120 128 7 74 100L 2.2 1) 274 480
18.1
50 200 170 628 225 258 170 148 23 83 100L 3.0 274 480
50 200 170 628 225 273 170 148 23 83 112M 4.0 1) 274 480
50 200 170 748 225 313 170 148 23 83 132S 5.5 1) 324 600
50 200 170 748 225 313 170 148 23 83 132M 7.5 1) 324 600
28.1
65 200 170 634 225 273 170 154 22 87 112M 4.0 274 480
65 200 170 754 225 314 170 154 22 87 132S 5.5 1) 324 600
65 200 170 754 225 314 170 154 22 87 132M 7.5 1) 324 600
52.1 65 200 200 768 225 314 170 168 23 100 132M 7.5 324 600
65 200 200 818 225 314 170 168 23 100 160L 11.0 1) 374 650
65.1
80 200 200 858 225 400 240 208 24 129 160L 15.0 374 650
80 200 200 858 225 384 240 208 24 129 180M 18.5 1) 374 650
80 200 200 858 225 388 240 208 24 129 180L 22.0 1) 374 650
90.1 80 200 200 864 225 385 240 214 21 138 180M 18.5 374 650
80 200 200 864 225 385 240 214 21 138 180L 22.0 1) 374 650
97
98
MAXA50 HzPerformance curves
MAXA 80-1602-pole
MAXA 80-1604-pole
TM02
972
2 44
05
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
H[m]
MAXA 80-16050 Hz
/159/166
/173
/180
/187
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
0
5
10
15
20
P2[kW]
/159/166
/173
/180
/187
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
45
50
55
60
65
70
75
[%]Eta
/159/166
/173
/180
/187
0 20 40 60 80 100 120 140 160 180 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 10 20 30 40 50 Q [l/s]
/159/166
/173
/180/187
TM02
972
7 44
05
0 10 20 30 40 50 60 70 80 90 100 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
H[m]
MAXA 80-16050 Hz
/166/173
/180/187
0 10 20 30 40 50 60 70 80 90 100 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
P2[kW]
/166
/173
/180
/187
0 10 20 30 40 50 60 70 80 90 100 Q [m³/h]
45
50
55
60
65
70
75
[%]Eta
/166/173
/180
/187
0 10 20 30 40 50 60 70 80 90 100 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 5 10 15 20 25 30 Q [l/s]
/187
/180
/173
/166
MAXA50 HzPerformance curves
MAXA 80-2002-pole
MAXA 80-2004-pole
TM02
972
3 44
05
0 20 40 60 80 100120140160180200 Q [m³/h]
0
10
20
30
40
50
60
70
H[m]
MAXA 80-20050 Hz
/180
/190
/200
/210
/220
/228
0 20 40 60 80 100120140160180200 Q [m³/h]
0
10
20
30
40
P2[kW]
/180/190
/200
/210
/220/228
0 20 40 60 80 100120140160180200 Q [m³/h]
45
50
55
60
65
70
75
[%]Eta
/180
/190
/200/210
/220
/228
0 20 40 60 80 100120140160180200 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 10 20 30 40 50 60 Q [l/s]
/180 /190
/200
/210
/220
/228
TM02
972
8 44
05
0 20 40 60 80 100 120 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
H[m]
MAXA 80-20050 Hz
/180 /190/200
/210/220/228
0 20 40 60 80 100 120 Q [m³/h]
0
1
2
3
4
5
P2[kW]
/180/190
/200
/210
/220/228
0 20 40 60 80 100 120 Q [m³/h]
25
30
35
40
45
50
55
60
65[%]Eta
/180 /190 /200/210
/220
/228
0 20 40 60 80 100 120 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 10 20 30 Q [l/s]
/180
/190
/200
/210
/220 /228
99
100
MAXA50 HzPerformance curves
MAXA 80-2502-pole
MAXA 80-2504-pole
TM02
972
4 44
05
0 20 40 60 80 100120140160180200 Q [m³/h]
20
30
40
50
60
70
80
90
100
110
H[m]
MAXA 80-25050 Hz
/220/230
/240
/250
/260/268
0 20 40 60 80 100120140160180200 Q [m³/h]
10
20
30
40
50
60
P2[kW]
/220
/230/240
/250
/260
/268
0 20 40 60 80 100120140160180200 Q [m³/h]
45
50
55
60
65
70
75
[%]Eta
/220
/230/240/250/260
/268
0 20 40 60 80 100120140160180200 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 10 20 30 40 50 60 Q [l/s]
/220
/230
/240 /250
/260
/268
TM02
972
9 44
05
0 20 40 60 80 100 120 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
22
24
26
H[m]
MAXA 80-25050 Hz
/220
/230
/240
/250
/260/268
0 20 40 60 80 100 120 Q [m³/h]
0
2
4
6
8
10
P2[kW]
/220/230/240/250/260/268
0 20 40 60 80 100 120 Q [m³/h]
45
50
55
60
65
70
75
[%]Eta
/220/230
/240/250
/260
/268
0 20 40 60 80 100 120 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 10 20 30 Q [l/s]
/220/230/240/250/260/268
MAXA50 HzPerformance curves
MAXA 80-3154-pole
TM02
973
0 44
05
0 20 40 60 80 100 120 140 Q [m³/h]
10
15
20
25
30
35
40
H[m]
MAXA 80-31550 Hz
/270
/285
/300
/315
/330
/343
0 20 40 60 80 100 120 140 Q [m³/h]
0
4
8
12
16
20
P2[kW]
/270/285
/300/315
/330/343
0 20 40 60 80 100 120 140 Q [m³/h]
40
45
50
55
60
65
70
[%]Eta
/270 /285
/300 /315
/330
/343
0 20 40 60 80 100 120 140 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 10 20 30 40 Q [l/s]
/270
/285
/300
/315
/330
/343
101
102
MAXA50 HzPerformance curves
MAXA 100-2002-pole
MAXA 100-2004-pole
TM02
972
5 44
05
0 40 80 120 160 200 240 280 320 Q [m³/h]
0
10
20
30
40
50
60
70
H[m]
MAXA 100-20050 Hz
/185
/195 /205/215
/225
/234
0 40 80 120 160 200 240 280 320 Q [m³/h]
0
10
20
30
40
50
P2[kW]
/185/195
/205/215
/225
/234
0 40 80 120 160 200 240 280 320 Q [m³/h]
50
55
60
65
70
75
80
[%]Eta
/185
/195
/205
/215/225
/234
0 40 80 120 160 200 240 280 320 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 20 40 60 80 Q [l/s]
/185
/195 /205
/215
/225
/234
TM02
973
1 44
05
0 20 40 60 80 100 120 140 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
H[m]
MAXA 100-20050 Hz
/185 /195/205
/215
/225
/234
0 20 40 60 80 100 120 140 Q [m³/h]
0
1
2
3
4
5
6
P2[kW]
/185/195
/205
/215
/225
/234
0 20 40 60 80 100 120 140 Q [m³/h]
45
50
55
60
65
70
75
80[%]Eta
/185
/195/205
/215
/225
/234
0 20 40 60 80 100 120 140 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 10 20 30 40 Q [l/s]
/185
/195
/205
/215 /225/234
MAXA50 HzPerformance curves
MAXA 100-2502-pole
MAXA 100-2504-pole
TM02
972
6 44
05
0 40 80 120 160 200 240 280 Q [m³/h]
0
10
20
30
40
50
60
70
80
90
100
H[m]
MAXA 100-25050 Hz
/215
/225
/235
/245
/255
/267
0 40 80 120 160 200 240 280 Q [m³/h]
0
20
40
60
80
P2[kW]
/215/225/235/245
/255
/267
0 40 80 120 160 200 240 280 Q [m³/h]
50
55
60
65
70
75
80
[%]Eta
/215
/225
/235
/245
/255/267
0 40 80 120 160 200 240 280 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 20 40 60 80 Q [l/s]
/215
/225
/235
/245
/255
/267
TM02
973
2 44
05
0 20 40 60 80 100 120 140 160 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
22
24
26
H[m]
MAXA 100-25050 Hz
/215
/225
/235
/245
/255
/267
0 20 40 60 80 100 120 140 160 Q [m³/h]
0
2
4
6
8
10
P2[kW]
/215/225/235/245/255
/267
0 20 40 60 80 100 120 140 160 Q [m³/h]
45
50
55
60
65
70
75
80[%]Eta
/215
/225
/235/245
/255
/267
0 20 40 60 80 100 120 140 160 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 10 20 30 40 50 Q [l/s]
/215/225
/235 /245/255
/267
103
104
MAXA50 HzPerformance curves
MAXA 125-2504-pole
MAXA 125-3154-pole
TM02
973
3 44
05
0 40 80 120 160 200 240 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
H[m]
MAXA 125-25050 Hz
/220 /230/245
/260
/275
/290
0 40 80 120 160 200 240 Q [m³/h]
0
4
8
12
16
P2[kW]
/220/230
/245
/260
/275
/290
0 40 80 120 160 200 240 Q [m³/h]
40
45
50
55
60
65
70
75[%]Eta
/220
/230
/245
/260
/275/290
0 40 80 120 160 200 240 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 20 40 60 Q [l/s]
/220 /230
/245 /260
/275/290
TM02
973
4 44
05
0 40 80 120 160 200 240 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
H[m]
MAXA 125-31550 Hz
/295
/310
/325
/340
/353
0 40 80 120 160 200 240 Q [m³/h]
0
10
20
30
40
P2[kW]
/295/310/325
/340
/353
0 40 80 120 160 200 240 Q [m³/h]
45
50
55
60
65
70
75
80[%]Eta
/295
/310/325
/340/353
0 40 80 120 160 200 240 Q [m³/h]
0
1
2
3
4
5
6
7[m]
NPSH
0 20 40 60 Q [l/s]
/295/310/325
/340
/353
MAXA50 HzPerformance curves
MAXA 150-2504-pole
MAXA 150-3154-pole
TM02
973
5 44
05
0 50 100 150 200 250 300 350 400Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
H[m]
MAXA 150-25050 Hz
/240/250
/265/280
/296
0 50 100 150 200 250 300 350 400Q [m³/h]
0
5
10
15
20
25
30
P2[kW]
/240/250
/265
/280
/296
0 50 100 150 200 250 300 350 400Q [m³/h]
45
50
55
60
65
70
75
80[%]Eta
/240 /250/265
/280
/296
0 50 100 150 200 250 300 350 400Q [m³/h]
0
1
2
3
4
5
6
7[m]
NPSH
0 25 50 75 100 Q [l/s]
/240
/250
/265
/280/296
TM02
973
6 44
05
0 50 100 150 200 250 300 350 400 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
H[m]
MAXA 150-31550 Hz
/300
/315
/330
/345
/359
0 50 100 150 200 250 300 350 400 Q [m³/h]
0
10
20
30
40
50
P2[kW]
/300/315
/330
/345
/359
0 50 100 150 200 250 300 350 400 Q [m³/h]
45
50
55
60
65
70
75
80[%]Eta
/300
/315
/330
/345/359
0 50 100 150 200 250 300 350 400 Q [m³/h]
0
1
2
3
4
5
6
7[m]
NPSH
0 25 50 75 100 125 Q [l/s]
/300
/315
/330/345
/359
105
106
MAXA50 HzPerformance curves
MAXA 150-4004-pole
MAXA 200-4004-pole
TM02
973
7 44
05
0 50 100 150 200 250 300 350 400 Q [m³/h]
10
15
20
25
30
35
40
45
50
55
60
65
70
H[m]
MAXA 150-40050 Hz
/340
/360
/380
/400
/420
/435
0 50 100 150 200 250 300 350 400 Q [m³/h]
0
20
40
60
80
100
P2[kW]
/340/360
/380
/400
/420/435
0 50 100 150 200 250 300 350 400 Q [m³/h]
40
45
50
55
60
65
70
75[%]Eta
/340
/360
/380/400
/420
/435
0 50 100 150 200 250 300 350 400 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 25 50 75 100 125 Q [l/s]
/340 /360
/380/400
/420/435
TM02
973
8 44
05
0 100 200 300 400 500 600 700 800 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
50
55
H[m]
MAXA 200-40050 Hz
/345
/370
/408
/420
0 100 200 300 400 500 600 700 800 Q [m³/h]
20
30
40
50
60
70
80
P2[kW]
/345
/370
/408
/420
0 100 200 300 400 500 600 700 800 Q [m³/h]
50
55
60
65
70
75
80
85[%]Eta
/345
/370
/408
/420
0 100 200 300 400 500 600 700 800 Q [m³/h]
3
4
5
6
7
8
9
[m]NPSH
0 50 100 150 200 Q [l/s]
/345
/370/420
MAXA L50 HzTechnical data
MAXA L
Technical data, 2-pole
TM02
965
3 36
04
Pumpsize P2 [kW] IEC size k3
(1) a1 f3 h2 p3 p4 p5 DNs(2) DNd
(2) p6 u(1) w1 h1 m1 m2 n1 n2 h9 s1 Net weight [kg]
80-160
11.0 160M 490 125 218 225 150 157 185
100(125.150)
80(100)
350 240 108 160 210 256 300 254 18 15 118
15.0 160M 490 125 218 225 150 157 185 350 240 108 160 210 256 300 254 18 15 131
18.5 160L 530 125 218 225 150 157 185 350 240 108 160 254 300 300 254 18 15 14822.0 180M 605 125 218 225 150 157 185 350 265 121 180 241 287 339 279 18 15 164
80-200
15.0 160M 490 125 220 250 170 171 205 350 240 108 160 210 256 300 254 18 15 166
18.5 160L 530 125 220 250 170 171 205 350 240 108 160 254 300 300 254 18 15 18322.0 180M 605 125 220 250 170 171 205 350 265 121 180 241 287 339 279 18 15 199
30.0 200L 665 125 220 250 170 171 205 400 310 133 200 305 355 388 318 24 19 249
37.0 200L 665 125 220 250 170 171 205 400 310 133 200 305 355 388 318 24 19 272
80-25030.0 200L 665 125 220 280 180 189 220 400 310 133 200 305 355 388 318 24 19 264
37.0 200L 665 125 220 280 180 189 220 400 310 133 200 305 355 388 318 24 19 287
100-200
18.5 160L 530 125 220 280 170 171 205
125(150)
100(125)
350 240 108 160 254 300 300 254 18 15 19622.0 180M 605 125 220 280 170 171 205 350 265 121 180 241 287 339 279 18 15 212
30.0 200L 665 125 220 280 170 171 205 400 310 133 200 305 355 388 318 24 19 262
37.0 200L 665 125 220 280 170 171 205 400 310 133 200 305 355 388 318 24 19 285
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Flange dimensions are according to DIN EN 1092-1 (DIN 2632). Nominal diameters in parenthesis are available on request.
107
108
MAXA L50 HzTechnical data
Technical data, 4-pole
TM03
014
2 41
04
* This drawing applies to pump size 80-160, only.For pump sizes 80-200 to 125-250, see previous page.
Pumpsize P2 [kW] IEC size k3
(1) a1 f3 h2 p3 p4 p5 DNs(2) DNd
(2) p6 u(1) w1 h1 m1 m2 n1 n2 h9 s1 Net weight [kg]
80-160*3.0 100L 320 125 168.5 225 150 157 185
100(125.150)
80(100)
250 175 52 180 - - - - - - 774.0 112M 340 125 168.5 225 150 157 185 250 185 52 180 - - - - - - 82
80-2005.5 132S 390 125 200 250 170 171 205 300 205 89 132 140 180 256 216 15 12 116
7.5 132M 420 125 200 250 170 171 205 300 205 89 132 178 218 256 216 15 12 129
80-250
5.5 132S 390 125 200 280 180 189 220 300 205 89 132 140 180 256 216 15 12 123
7.5 132M 420 125 200 280 180 189 220 300 205 89 132 178 218 256 216 15 12 136
11.0 160M 490 125 220 280 180 189 220 350 240 108 160 210 256 300 254 18 15 163
80-315
5.5 132S 390 125 200 315 208 215 225 300 205 89 132 140 180 256 216 15 12 136
7.5 132M 420 125 200 315 208 215 225 300 205 89 132 178 218 256 216 15 12 149
11.0 160M 490 125 220 315 208 215 225 350 240 108 160 210 256 300 254 18 15 17615.0 160L 530 125 220 315 208 215 225 350 240 108 160 254 300 300 254 18 15 193
18.5 180M 605 125 220 315 208 215 225 350 265 121 180 241 287 339 279 18 15 267
22.0 180L 605 125 220 315 208 215 225 350 265 121 180 279 325 339 279 18 15 282
100-2005.5 132S 390 125 200 280 170 171 205
125(150)
100(125)
300 205 89 132 140 180 256 216 15 12 123
7.5 132M 420 125 200 280 170 171 205 300 205 89 132 178 218 256 216 15 12 136
100-250
5.5 132S 390 140 200 280 180 189 220 300 205 89 132 140 180 256 216 15 12 1317.5 132M 420 140 200 280 180 189 220 300 205 89 132 178 218 256 216 15 12 144
11.0 160M 490 140 220 280 180 189 220 350 240 108 160 210 256 300 254 18 15 171
15.0 160L 530 140 220 280 180 189 220 350 240 108 160 254 300 300 254 18 15 188
125-250
7.5 132M 420 140 200 355 200 206 260
150(200)
125(150)
300 205 89 132 178 218 256 216 15 12 160
11.0 160M 490 140 220 355 200 206 260 350 240 108 160 210 256 300 254 18 15 187
15.0 160L 530 140 220 355 200 206 260 350 240 108 160 254 300 300 254 18 15 20418.5 180M 605 140 220 355 200 206 260 350 265 121 180 241 287 339 279 18 15 278
22.0 180L 605 140 220 355 200 206 260 350 265 121 180 279 325 339 279 18 15 293
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Flange dimensions are according to DIN EN 1092-1 (DIN 2632).(3) Nominal diameter in parenthesis are available on request.(6) Pumps fitted with motors of IEC size 100 and 112 are supported with pump foot and motor foot; from IEC size 132 pumps are fitted with motor foot, only.
MAXA CN50 HzTechnical data
MAXA CN
Technical data, 2-pole
TM02
965
4 36
04
Pumpsize P2 [kW] IEC size k3
(1) l5 E(7) f1 a1 h1 h2 h7 ∅ d ∅ d4 DNs(2) DNd
(2) a2 l1 l2 l3 b1 b2 b3 d5Baseplatesize
Net weight
[kg]
80-160
11.0 160M 600 559 74 360 125 180 225 290 24 42
100(125.150)
80(100)
75 1250 205 840 480 590 540 24 6 21215.0 160M 600 559 74 360 125 180 225 290 24 42 75 1250 205 840 480 590 540 24 6 225
18.5 160L 640 559 74 360 125 180 225 290 24 42 75 1250 205 840 480 590 540 24 6 240
22.0 180M 715 665 80 360 125 180 225 290 24 48 75 1250 205 840 480 590 540 24 6 25530.0 200L 775 573 88 360 125 180 225 310 24 55 75 1250 205 840 480 590 540 24 6 305
80-200
15.0 160M 600 669 74 470 125 180 250 290 32 42 75 1250 205 840 480 590 540 24 6 235
18.5 160L 640 669 74 470 125 180 250 290 32 42 75 1250 205 840 480 590 540 24 6 25022.0 180M 715 676 80 470 125 180 250 290 32 48 75 1250 205 840 480 590 540 24 6 265
30.0 200L 775 683 88 470 125 180 250 310 32 55 75 1250 205 840 480 590 540 24 6 315
37.0 200L 775 683 88 470 125 180 250 310 32 55 75 1250 205 840 480 590 540 24 6 33845.0 225M 840 683 88 470 125 180 250 365 32 55 75 1600 270 1060 580 710 650 28 7 542
80-250
30.0 200L 775 683 88 470 125 200 280 310 32 55 90 1250 205 840 480 590 540 24 6 330
37.0 200L 775 683 88 470 125 200 280 310 32 55 90 1250 205 840 480 590 540 24 6 35345.0 225M 840 683 88 470 125 200 280 365 32 55 90 1600 270 1060 580 710 650 28 7 557
55.0 250M 930 697 102 470 125 200 280 390 32 60 90 1600 270 1060 580 710 650 28 7 662
75.0 280S 1040 697 102 470 125 200 280 420 32 65 90 1800 300 1200 650 780 720 28 8 86190.0 280M 1040 697 102 470 125 200 280 420 32 65 90 1800 300 1200 650 780 720 28 8 901
100-200
18.5 160L 640 669 74 470 125 200 280 310 32 42
125(150)
100(125)
90 1250 205 840 480 590 540 24 6 263
22.0 180M 715 676 80 470 125 200 280 310 32 48 90 1250 205 840 480 590 540 24 6 27830.0 200L 775 683 88 470 125 200 280 310 32 55 90 1250 205 840 480 590 540 24 6 328
37.0 200L 775 683 88 470 125 200 280 310 32 55 90 1250 205 840 480 590 540 24 6 351
45.0 225M 840 683 88 470 125 200 280 365 32 55 90 1600 270 1060 580 710 650 28 7 55555.0 250M 930 697 102 470 125 200 280 390 32 60 90 1600 270 1060 580 710 650 28 7 660
75.0 280S 1040 697 102 470 125 200 280 420 32 65 90 1800 300 1200 650 780 720 28 8 859
100-250
30.0 200L 775 698 88 470 140 225 280 335 32 55 90 1250 205 840 480 590 540 24 6 33937.0 200L 775 698 88 470 140 225 280 335 32 55 90 1250 205 840 480 590 540 24 6 362
45.0 225M 840 698 88 470 140 225 280 365 32 55 90 1600 270 1060 580 710 650 28 7 566
55.0 250M 930 712 102 470 140 225 280 390 32 60 90 1600 270 1060 580 710 650 28 7 67175.0 280S 1040 712 102 470 140 225 280 420 32 65 90 1800 300 1200 650 780 720 28 8 870
90.0 280M 1040 712 102 470 140 225 280 420 32 65 90 1800 300 1200 650 780 720 28 8 910
109
110
MAXA CN50 HzTechnical data
Technical data, 4-pole
To be continued on the next page.
Pumpsize P2 [kW] IEC size k3
(1) l5 E(7) f1 a1 h1 h2 h7 ∅ d ∅ d4 DNs(2) DNd
(2) a2 l1 l2 l3 b1 b2 b3 d5Baseplatesize
Net weight
[kg]
80-1603.0 100L 380 543 58 360 125 180 225 282 24 28
100(125.150)
80(100)
75 1120 190 740 430 540 490 24 5 1424.0 112M 400 543 58 360 125 180 225 282 24 28 75 1120 190 740 430 540 490 24 5 147
80-200
2.2 100L 380 653 58 470 125 180 250 282 32 28 75 1120 190 740 430 540 490 24 5 165
3.0 100L 380 653 58 470 125 180 250 282 32 28 75 1120 190 740 430 540 490 24 5 1684.0 112M 400 653 58 470 125 180 250 282 32 28 75 1120 190 740 430 540 490 24 5 172
5.5 132S 470 663 68 470 125 180 250 282 32 38 75 1120 190 740 430 540 490 24 5 183
80-250
4.0 112M 400 653 58 470 125 200 280 310 32 28 90 1250 205 840 480 590 540 24 6 1955.5 132S 470 663 68 470 125 200 280 310 32 38 90 1250 205 840 480 590 540 24 6 206
7.5 132M 500 663 68 470 125 200 280 310 32 38 90 1250 205 840 480 590 540 24 6 218
11.0 160M 600 669 74 470 125 200 280 310 32 42 90 1250 205 840 480 590 540 24 6 239
80-315
5.5 132S 470 663 68 470 125 250 315 360 32 38 90 1250 205 840 480 590 540 24 6 218
7.5 132M 500 663 68 470 125 250 315 360 32 38 90 1250 205 840 480 590 540 24 6 232
11.0 160M 600 669 74 470 125 250 315 360 32 42 90 1250 205 840 480 590 540 24 6 25315.0 160L 640 669 74 470 125 250 315 360 32 42 90 1250 205 840 480 590 540 24 6 270
18.5 180M 715 675 80 470 125 250 315 360 32 48 90 1250 205 840 480 590 540 24 6 344
22.0 180L 715 675 80 470 125 250 315 360 32 48 90 1250 205 840 480 590 540 24 6 358
100-200
3.0 100L 380 653 58 470 125 200 280 302 32 28
125(150)
100(125)
90 1120 190 740 430 540 490 24 5 152
4.0 112M 400 653 58 470 125 200 280 302 32 28 90 1120 190 740 430 540 490 24 5 179
5.5 132S 470 663 68 470 125 200 280 302 32 38 90 1120 190 740 430 540 490 24 5 1917.5 132M 500 663 68 470 125 200 280 302 32 38 90 1120 190 740 430 540 490 24 5 203
100-250
4.0 112M 400 668 58 470 140 225 280 335 32 28 90 1250 205 840 480 590 540 24 6 202
5.5 132S 470 678 68 470 140 225 280 335 32 38 90 1250 205 840 480 590 540 24 6 214
7.5 132M 500 678 68 470 140 225 280 335 32 38 90 1250 205 840 480 590 540 24 6 22611.0 160M 600 684 74 470 140 225 280 335 32 42 90 1250 205 840 480 590 540 24 6 247
15.0 160L 640 684 74 470 140 225 280 335 32 42 90 1250 205 840 480 590 540 24 6 260
125-250
7.5 132M 500 678 68 470 140 250 355 360 32 38
150(200)
125(150)
90 1250 205 840 480 590 540 24 6 24311.0 160M 600 684 74 470 140 250 355 360 32 42 90 1250 205 840 480 590 540 24 6 263
15.0 160L 640 684 74 470 140 250 355 360 32 42 90 1250 205 840 480 590 540 24 6 281
18.5 180M 715 690 80 470 140 250 355 360 32 48 90 1250 205 840 480 590 540 24 6 355
125-315
11.0 160M 600 744 74 530 140 280 355 420 42 42 110 1600 270 1060 580 710 650 28 7 386
15.0 160L 640 744 74 530 140 280 355 420 42 42 110 1600 270 1060 580 710 650 28 7 403
18.5 180M 715 750 80 530 140 280 355 420 42 48 110 1600 270 1060 580 710 650 28 7 48022.0 180L 715 750 80 530 140 280 355 420 42 48 110 1600 270 1060 580 710 650 28 7 496
30.0 200L 775 758 88 530 140 280 355 420 42 55 110 1600 270 1060 580 710 650 28 7 559
37.0 225S 840 772 102 530 140 280 355 420 42 60 110 1600 270 1060 580 710 650 28 7 621
MAXA CN50 HzTechnical data
Continued from previous page
Pumpsize P2 [kW] IEC size k3
(1) l5 E(7) f1 a1 h1 h2 h7 ∅ d ∅ d4 DNs(2) DNd
(2) a2 l1 l2 l3 b1 b2 b3 d5Baseplatesize
Net weight
[kg]
150-250
11.0 160M 600 764 74 530 160 280 375 420 42 42
200(250)
150
110 1600 270 1060 580 710 650 28 7 367
15.0 160L 640 764 74 530 160 280 375 420 42 42 110 1600 270 1060 580 710 650 28 7 383
18.5 180M 715 770 80 530 160 280 375 420 42 48 110 1600 270 1060 580 710 650 28 7 45822.0 180L 715 770 80 530 160 280 375 420 42 48 110 1600 270 1060 580 710 650 28 7 473
30.0 200L 775 778 88 530 160 280 375 420 42 55 110 1600 270 1060 580 710 650 28 7 533
150-315
15.0 160L 640 764 74 530 160 280 400 420 42 42 110 1800 300 1200 650 780 720 28 8 50018.5 180M 715 770 80 530 160 280 400 420 42 48 110 1800 300 1200 650 780 720 28 8 525
22.0 180L 715 770 80 530 160 280 400 420 42 48 110 1800 300 1200 650 780 720 28 8 540
30.0 200L 775 778 88 530 160 280 400 420 42 55 110 1800 300 1200 650 780 720 28 8 60037.0 225S 840 792 102 530 160 280 400 420 42 60 110 1800 300 1200 650 780 720 28 8 660
45.0 225M 840 792 102 530 160 280 400 420 42 60 110 1800 300 1200 650 780 720 28 8 690
55.0 250M 930 792 102 530 160 280 400 420 42 65 110 1800 300 1200 650 780 720 28 8 795
150-400
30.0 200L 775 778 88 530 160 315 450 455 42 55 110 1800 300 1200 650 780 720 28 8 657
37.0 225S 840 792 102 530 160 315 450 455 42 60 110 1800 300 1200 650 780 720 28 8 717
45.0 225M 840 792 102 530 160 315 450 455 42 60 110 1800 300 1200 650 780 720 28 8 74755.0 250M 930 792 102 530 160 315 450 455 42 65 110 1800 300 1200 650 780 720 28 8 852
75.0 280S 1040 806 116 530 160 315 450 455 42 75 110 1800 300 1200 650 780 720 28 8 1032
90.0 280M 1040 806 116 530 160 315 450 455 42 75 110 1800 300 1200 650 780 720 28 8 1090
200-400
30.0 200L 775 814 88 551 175 315 530 455 42 55
200
110 1800 300 1200 650 780 720 28 8 687
37.0 225S 840 828 102 551 175 315 530 455 42 60 110 1800 300 1200 650 780 720 28 8 747
45.0 225M 840 828 102 551 175 315 530 455 42 60 110 1800 300 1200 650 780 720 28 8 77755.0 250M 930 828 102 551 175 315 530 455 42 65 110 1800 300 1200 650 780 720 28 8 882
75.0 280S 1040 842 116 551 175 315 530 455 42 75 110 1800 300 1200 650 780 720 28 8 1062
90.0 280M 1040 842 116 551 175 315 530 455 42 75 110 1800 300 1200 650 780 720 28 8 1120
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Flange dimensions are according to DIN EN 1092-1 (DIN 2632).(3) Nominal diameter in parenthesis are available on request.(7) Coupling of our choice.
Larger motors, threaded pipe connections and special flanges are available on request.
111
112
MAXANA50 HzPerformance curves
MAXANA 32-1602-pole
MAXANA 32-1604-pole
TM02
969
9 44
05
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
H[m]
MAXANA 32-16050 Hz
/140
/150
/160
/170
/180
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
1
2
3
4
5
P2[kW]
/140/150
/160
/170
/180
0 4 8 12 16 20 24 28 32 Q [m³/h]
30
35
40
45
50
55
60
[%]Eta
/140 /150
/160/170
/180
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 2 4 6 8 10 Q [l/s]
/140
/150/160
/170
/180
TM02
971
0 44
05
0 2 4 6 8 10 12 14 16 18 20 22 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
H[m]
MAXANA 32-16050 Hz
/140
/150
/160/170
/180
0 2 4 6 8 10 12 14 16 18 20 22 Q [m³/h]
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
P2[kW]
/140
/150
/160/170
/180
0 2 4 6 8 10 12 14 16 18 20 22 Q [m³/h]
25
30
35
40
45
50
[%]Eta
/140
/150
/160
/170
/180
0 2 4 6 8 10 12 14 16 18 20 22 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 1 2 3 4 5 6 Q [l/s]
/140 /150/160
/170
/180
MAXANA50 HzPerformance curves
MAXANA 32-2002-pole
MAXANA 32-2004-pole
TM02
970
0 44
05
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
10
20
30
40
50
60
70
H[m]
MAXANA 32-20050 Hz
/170
/180
/190
/200
/210
/220
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
2
4
6
8
10
12
P2[kW]
/170
/180
/190
/200/210/220
0 5 10 15 20 25 30 35 40 Q [m³/h]
30
35
40
45
50
55
[%]Eta
/170
/180
/190/200/210/220
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 2 4 6 8 10 Q [l/s]
/170
/180
/190
/200
/210
/220
TM02
971
1 44
05
0 4 8 12 16 20 24 28 32 Q [m³/h]
2
4
6
8
10
12
14
16
H[m]
MAXANA 32-20050 Hz
/170 /180/190
/200
/210/220
0 4 8 12 16 20 24 28 32 Q [m³/h]
0.0
0.4
0.8
1.2
1.6
2.0
P2[kW]
/170/180
/190
/200
/210
/220
0 4 8 12 16 20 24 28 32 Q [m³/h]
25
30
35
40
45
50
55
[%]Eta
/170
/180
/190
/200/210
/220
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
1
2
3
4
5
6
[m]NPSH
0 2 4 6 8 Q [l/s]
/180
/170
/190 /200
/210
/220
113
114
MAXANA50 HzPerformance curves
MAXANA 40-1602-pole
MAXANA 40-1604-pole
TM02
970
1 44
05
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
H[m]
MAXANA 40-16050 Hz
/140
/150
/160
/170
/180
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
1
2
3
4
5
6
P2[kW]
/140
/150
/160/170
/180
0 5 10 15 20 25 30 35 40 Q [m³/h]
40
45
50
55
60
65
70
[%]Eta
/140
/150 /160
/170
/180
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 2 4 6 8 10 12 Q [l/s]
/140
/150
/160 /170
/180
TM02
971
2 44
05
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
H[m]
MAXANA 40-16050 Hz
/140 /150
/160
/170 /180
0 4 8 12 16 20 24 28 32 Q [m³/h]
0.0
0.2
0.4
0.6
0.8
1.0
P2[kW]
/140/150/160/170
/180
0 4 8 12 16 20 24 28 32 Q [m³/h]
35
40
45
50
55
60
65
[%]Eta
/140
/150
/160
/170
/180
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
1
2
3
4
[m]NPSH
0 2 4 6 8 Q [l/s]
/180/170
/160/150
/140
MAXANA50 HzPerformance curves
MAXANA 40-2002-pole
MAXANA 40-2004-pole
TM02
970
2 44
05
0 5 10 15 20 25 30 35 40 45 50 Q [m³/h]
10
15
20
25
30
35
40
45
50
55
60
65
70
H[m]
MAXANA 40-20050 Hz
/170
/180
/190
/200
/210
/220
0 5 10 15 20 25 30 35 40 45 50 Q [m³/h]
0
4
8
12
16
P2[kW]
/170/180
/190/200/210/220
0 5 10 15 20 25 30 35 40 45 50 Q [m³/h]
30
35
40
45
50
55
60
[%]Eta
/170
/180
/190/200
/210/220
0 5 10 15 20 25 30 35 40 45 50 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 2 4 6 8 10 12 14 Q [l/s]
/170/180
/190
/200
/210/220
TM02
971
3 44
05
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
H[m]
MAXANA 40-20050 Hz
/170
/180 /190
/200
/210
/220
0 4 8 12 16 20 24 28 32 Q [m³/h]
0.0
0.4
0.8
1.2
1.6
2.0
P2[kW]
/170
/180
/190
/200
/210/220
0 4 8 12 16 20 24 28 32 Q [m³/h]
30
35
40
45
50
55
60
[%]Eta
/170
/180
/190
/200
/210
/220
0 4 8 12 16 20 24 28 32 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 2 4 6 8 10 Q [l/s]
/180/170
/190
/200
/210
/220
115
116
MAXANA50 HzPerformance curves
MAXANA 50-1252-pole
MAXANA 50-1254-pole
TM02
970
3 44
05
0 10 20 30 40 50 60 70 Q [m³/h]
0
5
10
15
20
25
30
H[m]
MAXANA 50-12550 Hz
/115
/125
/135
/145
0 10 20 30 40 50 60 70 Q [m³/h]
0
1
2
3
4
5
P2[kW]
/115
/125
/135
/145
0 10 20 30 40 50 60 70 Q [m³/h]
40
45
50
55
60
65
70
[%]Eta
/115/125
/135
/145
0 10 20 30 40 50 60 70 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 5 10 15 20 Q [l/s]
/115
/125
/135/145
TM02
971
4 44
05
0 5 10 15 20 25 30 35 40 Q [m³/h]
0
1
2
3
4
5
6
7
H[m]
MAXANA 50-12550 Hz
/115
/125
/135
/145
0 5 10 15 20 25 30 35 40 Q [m³/h]
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
P2[kW]
/115
/125
/135
/145
0 5 10 15 20 25 30 35 40 Q [m³/h]
25
30
35
40
45
50
55
60[%]Eta
/115 /125
/135
/145
0 5 10 15 20 25 30 35 40 Q [m³/h]
1.2
1.4
1.6
1.8
2.0
2.2
2.4
[m]NPSH
0 2 4 6 8 10 Q [l/s]
/145/135
/125
/115
MAXANA50 HzPerformance curves
MAXANA 50-1602-pole
MAXANA 50-1604-pole
TM02
970
4 44
05
0 10 20 30 40 50 60 70 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
50
H[m]
MAXANA 50-16050 Hz
/140
/150
/160
/170
/180
0 10 20 30 40 50 60 70 Q [m³/h]
0
2
4
6
8
10
P2[kW]
/140
/150/160
/170
/180
0 10 20 30 40 50 60 70 Q [m³/h]
40
45
50
55
60
65
70
[%]Eta
/140
/150
/160
/170
/180
0 10 20 30 40 50 60 70 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 5 10 15 20 Q [l/s]
/140
/150/160
/170/180
TM02
971
5 26
07
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
12
H[m]
MAXANA 50-16050 Hz
/140/150
/160/170
/180
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
P2[kW]
/140
/150
/160
/170
/180
0 5 10 15 20 25 30 35 40 45 Q [m³/h]
35
40
45
50
55
60
65
70[%]Eta
0 2 4 6 8 10 12 14 Q [l/s]
/140/150
/160
/170
/180
117
118
MAXANA50 HzPerformance curves
MAXANA 50-2002-pole
MAXANA 50-2004-pole
TM02
970
5 44
05
0 10 20 30 40 50 60 70 80 Q [m³/h]
10
20
30
40
50
60
70
H[m]
MAXANA 50-20050 Hz
/170
/180
/190
/200
/210
/220
0 10 20 30 40 50 60 70 80 Q [m³/h]
0
4
8
12
16
20
P2[kW]
/170
/180/190/200/210/220
0 10 20 30 40 50 60 70 80 Q [m³/h]
40
45
50
55
60
65
70
[%]Eta
/170/180/190/200
/210
/220
0 10 20 30 40 50 60 70 80 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 5 10 15 20 Q [l/s]
/170
/180/190/200/210
/220
TM02
971
6 44
05
0 10 20 30 40 50 60 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
H[m]
MAXANA 50-20050 Hz
/170 /180
/190/200
/210
/220
0 10 20 30 40 50 60 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
3.0
P2[kW]
/170
/180
/190
/200
/210/220
0 10 20 30 40 50 60 Q [m³/h]
35
40
45
50
55
60
65
[%]Eta
/170 /180
/190
/200
/210
/220
0 10 20 30 40 50 60 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 5 10 15 Q [l/s]
/170
/180/190
/200
/210
/220
MAXANA50 HzPerformance curves
MAXANA 65-1252-pole
TM02
970
6 44
05
0 20 40 60 80 100 120 Q [m³/h]
0
5
10
15
20
25
30
H[m]
MAXANA 65-12550 Hz
/155
0 20 40 60 80 100 120 Q [m³/h]
0
2
4
6
8
10
P2[kW]
/155
0 20 40 60 80 100 120 Q [m³/h]
30
35
40
45
50
55
60
[%]Eta
/155
0 20 40 60 80 100 120 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 10 20 30 Q [l/s]
/155
119
120
MAXANA50 HzPerformance curves
MAXANA 65-1602-pole
MAXANA 65-1604-pole
TM02
970
7 17
06
0 20 40 60 80 100 120 Q [m³/h]
0
5
10
15
20
25
30
35
40
45
50
H[m]
MAXANA 65-16050 Hz
/140
/150
/160
/170
/180
0 20 40 60 80 100 120 Q [m³/h]
0
4
8
12
16
P2[kW]
/140
/150
/160
/170
/180
0 20 40 60 80 100 120 Q [m³/h]
35
40
45
50
55
60
65
[%]Eta
/140
/150
/160/170
/180
0 20 40 60 80 100 120 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 10 20 30 Q [l/s]
/140 /150/160/170
/180
TM02
971
7 17
06
0 10 20 30 40 50 60 70 Q [m³/h]
0
1
2
3
4
5
6
7
8
9
10
11
H[m]
MAXANA 65-16050 Hz
/140 /150 /160/170
/180
0 10 20 30 40 50 60 70 Q [m³/h]
0.0
0.5
1.0
1.5
2.0
2.5
P2[kW]
/140/150
/160
/170
/180
0 10 20 30 40 50 60 70 Q [m³/h]
30
35
40
45
50
55
60
[%]Eta
/140/150
/160
/170
/180
0 10 20 30 40 50 60 70 Q [m³/h]
0
1
2
3
4
[m]NPSH
0 5 10 15 20 Q [l/s]
/160/150/140
/170
/180
MAXANA50 HzPerformance curves
MAXANA 65-2002-pole
MAXANA 65-2004-pole
TM02
970
8 44
05
0 20 40 60 80 100 120 140 Q [m³/h]
0
10
20
30
40
50
60
70
H[m]
MAXANA 65-20050 Hz
/170
/180
/190
/200/210
/220
0 20 40 60 80 100 120 140 Q [m³/h]
0
5
10
15
20
25
30
P2[kW]
/170
/180
/190
/200
/210
/220
0 20 40 60 80 100 120 140 Q [m³/h]
30
35
40
45
50
55
60
[%]Eta
/170/180
/190/200/210/220
0 20 40 60 80 100 120 140 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 10 20 30 40 Q [l/s]
/170/180 /190
/200
/210
/220
TM02
971
8 44
05
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
H[m]
MAXANA 65-20050 Hz
/170/180
/190/200
/210
/220
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
1
2
3
4
P2[kW]
/170/180
/190
/200
/210
/220
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
20
25
30
35
40
45
50
55[%]Eta
/170
/180 /190
/200/210
/220
0 10 20 30 40 50 60 70 80 90 Q [m³/h]
0
2
4
6
8
[m]NPSH
0 5 10 15 20 25 Q [l/s]
/180/170
/190/200
/210
/220
121
122
MAXANA50 HzPerformance curves
MAXANA 65-2502-pole
MAXANA 65-2504-pole
TM02
970
9 44
05
0 20 40 60 80 100 120 140 160 Q [m³/h]
0
10
20
30
40
50
60
70
80
90
100
110
H[m]
MAXANA 65-25050 Hz
/210
/225
/240
/255
/268
0 20 40 60 80 100 120 140 160 Q [m³/h]
0
10
20
30
40
50
P2[kW]
/210/225/240
/255
/268
0 20 40 60 80 100 120 140 160 Q [m³/h]
40
45
50
55
60
65
70
75[%]Eta
/210
/225
/240
/255/268
0 20 40 60 80 100 120 140 160 Q [m³/h]
0
1
2
3
4
5
6
7[m]
NPSH
0 10 20 30 40 Q [l/s]
/210
/225/240
/255/268
TM02
971
9 44
05
0 10 20 30 40 50 60 70 80 90 100110 Q [m³/h]
0
2
4
6
8
10
12
14
16
18
20
22
24
26
H[m]
MAXANA 65-25050 Hz
/210
/225
/240
/255
/268
0 10 20 30 40 50 60 70 80 90 100110 Q [m³/h]
0
1
2
3
4
5
6
7
P2[kW]
/210
/225
/240
/255
/268
0 10 20 30 40 50 60 70 80 90 100110 Q [m³/h]
35
40
45
50
55
60
65
70[%]Eta
/210 /225
/240/255
/268
0 10 20 30 40 50 60 70 80 90 100110 Q [m³/h]
0
1
2
3
4
5
[m]NPSH
0 5 10 15 20 25 30 Q [l/s]
/210
/225
/240
/255
/268
MAXANA Adapta®
50 HzTechnical data
MAXANA Adapta® on stainless steel foot
Technical data
TM02
965
2 36
04
Pumpsize P2 [kW] IEC size k3 u(1) a1 h2 p(4) b DNs
(2) DNd(2) Net weight
[kg]
32-160
3.0 100L 320 175 80 160 264 0
50(65)
32(40)
71
4.0 112M 340 185 80 160 264 0 78
5.5 132S 390 205 80 160 264 20 90
32-200
3.0 100L 320 175 80 180 316 0 77
4.0 112M 340 185 80 180 316 0 84
5.5 132S 390 205 80 180 316 20 967.5 132S 390 205 80 180 316 20 106
11.0 160M 490 240 80 180 316 51 127
15.0 160M 490 240 80 180 316 51 138
40-160
4.0 112M 340 195 80 160 264 0
65(80)
40(50)
79
5.5 132S 390 205 80 160 264 20 91
7.5 132S 390 205 80 160 264 20 10111.0 160M 490 240 80 160 264 51 140
40-200
7.5 132S 390 205 100 180 316 20 107
11.0 160M 490 290 100 180 316 51 12615.0 160M 490 290 100 180 316 51 139
50-125
3.0 100L 320 175 100 160 264 0
50(65)
76
4.0 112M 340 185 100 160 264 0 835.5 132S 390 205 100 160 264 20 95
7.5 132S 390 205 100 160 264 20 105
50-160
5.5 132S 390 205 100 180 288 20 93
7.5 132S 390 205 100 180 288 20 10311.0 160M 490 240 100 180 288 51 115
15.0 160M 490 240 100 180 288 51 135
50-20011.0 160M 490 240 100 200 316 51 12915.0 160M 490 240 100 200 316 51 142
65-125
4.0 112M 340 185 100 180 288 0
80(100)
65(80)
86
5.5 132S 390 205 100 180 288 20 987.5 132S 390 205 100 180 288 20 108
65-160
5.5 132S 390 205 100 200 308 20 98
7.5 132S 390 205 100 200 308 20 10811.0 160M 490 240 100 200 308 51 127
15.0 160M 490 240 100 200 308 51 140
65-20011.0 160M 490 240 100 225 348 51 13415.0 160M 490 240 100 225 348 51 147
Dimensions depend on housing size (DNs, DNd, a1, h2). See table of connections, page 47.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Flange dimensions are according to DIN EN 1092-1 (DIN 2632). Nominal diameter in parenthesis are available on request.(4) Largest diameter of pump without motor.(7) N-Eupex coupling.
123
124
MAXANA Adapta®
50 HzTechnical data
MAXANA Adapta® on Adapta® foot
Technical data
TM03
018
3 44
04
100
250
390
Pumpsize P2 [kW] n [min-1] IEC size b k3
(1) u(1)
65-250
15.0 2900 160M - 490 24018.5 2900 160L - 530 240
22.0 2900 180L - 605 265
30.0 2900 200L 25 665 31037.0 2900 200L 25 665 310
45.0 2900 225M 30 700 330
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(7) N-Eupex coupling.
MAXANA Bloc50 HzTechnical data
MAXANA Bloc on pump and motor foot
Technical data, 2-pole
TM03
020
2 45
04
250
1
Pumpsize P2 [kW] IEC size k3
(1) u(1) a1 h1 h2 p(4) m1 m2 n1 n2 b DNs(2) DNd
(2)Net
weight [kg]
32-160
2.2 90L 285 150 80 132 160 264 100 70 240 190 50
50(65)
32(40)
34
3.0 100L 320 175 80 132 160 264 100 70 240 190 50 40
4.0 112M 340 185 80 132 160 264 100 70 240 190 50 475.5 112M 340 185 80 132 160 264 100 70 240 190 50 59
32-200
3.0 100L 320 175 80 160 180 316 100 70 240 190 50 46
4.0 112M 340 185 80 160 180 316 100 70 240 190 50 535.5 112M 340 185 80 160 180 316 100 70 240 190 50 65
40-1604.0 112M 340 185 80 132 160 264 100 70 240 190 50
65(80)
40(50)
48
5.5 112M 340 185 80 132 160 264 100 70 240 190 50 60
50-125
3.0 100L 320 175 100 132 160 264 100 70 240 190 50
50(65)
45
4.0 112M 340 185 100 132 160 264 100 70 240 190 50 52
5.5 112M 340 185 100 132 160 264 100 70 240 190 50 64
50-160 5.5 112M 340 185 100 160 180 288 100 70 265 212 50 62
65-1254.0 112M 340 185 100 160 180 288 125 95 280 212 65
80(100)
65(80)
55
5.5 112M 340 185 100 160 180 288 125 95 280 212 65 67
65-160 5.5 112M 340 185 100 160 200 308 125 95 280 212 65 67
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Other sizes and special connections are available on request.(4) Largest diameter of pump without motor.
125
126
MAXANA Bloc50 HzTechnical data
Technical data, 4-pole
Pumpsize P2 [kW] IEC size k3
(1) u(1) a1 h1 h2 p(4) m1 m2 n1 n2 b DNs(2) DNd
(2)Net
weight [kg]
32-1600.55 80 245 145 80 132 160 264 100 70 240 190 50
50(65)
32(40)
270.75 90S 285 150 80 132 160 264 100 70 240 190 50 28
32-200
0.75 90S 285 150 80 160 180 316 100 70 240 190 50 34
1.1 90S 285 150 80 160 180 316 100 70 240 190 50 371.5 90L 285 150 80 160 180 316 100 70 240 190 50 40
40-160
0.55 80 245 145 80 132 160 264 100 70 240 190 50
65(80)
40(50)
28
0.75 90S 285 150 80 132 160 264 100 70 240 190 50 291.1 90S 285 150 80 132 160 264 100 70 240 190 50 32
1.5 90L 285 150 80 132 160 264 100 70 240 190 50 35
40-2001.1 90S 285 150 100 160 180 316 100 70 265 212 50 381.5 90L 285 150 100 160 180 316 100 70 265 212 50 41
2.2 100L 320 175 100 160 180 316 100 70 265 212 50 48
50-1250.55 80 245 145 100 132 160 264 100 70 240 190 50
50(65)
320.75 90S 285 150 100 132 160 264 100 70 240 190 50 33
1.1 90S 285 150 100 132 160 264 100 70 240 190 50 36
50-1601.1 90S 285 150 100 160 180 288 100 70 265 212 50
40(50)
341.5 90L 285 150 100 160 180 288 100 70 265 212 50 38
2.2 100L 320 175 100 160 180 288 100 70 265 212 50 44
50-200
1.5 90L 285 150 100 160 200 316 100 70 265 212 50 442.2 100L 320 175 100 160 200 316 100 70 265 212 50 51
3.0 100L 320 175 100 160 200 316 100 70 265 212 50 53
4.0 112M 340 185 100 160 200 316 100 70 265 212 50 58
65-1250.75 90S 285 150 100 160 180 288 125 95 280 212 65
80(100)
65(80)
361.1 90S 285 150 100 160 180 288 125 95 280 212 65 39
65-160
0.75 90S 285 150 100 160 200 308 125 95 280 212 65 36
1.1 90S 285 150 100 160 200 308 125 95 280 212 65 391.5 90L 285 150 100 160 200 308 125 95 280 212 65 43
2.2 100L 320 175 100 160 200 308 125 95 280 212 65 49
3.0 100L 320 175 100 160 200 308 125 95 280 212 65 51
65-200
1.5 90L 285 150 100 180 225 348 125 95 320 250 65 50
2.2 100L 320 175 100 180 225 348 125 95 320 250 65 56
3.0 100L 320 175 100 180 225 348 125 95 320 250 65 584.0 112M 340 185 100 180 225 348 125 95 320 250 65 63
5.5 112M 340 185 100 180 225 348 125 95 320 250 65 76
Dimensions depend on housing size (DNs, DNd, a1, h2). See table of connections, page 47.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Flange dimensions are according to DIN EN 1092-1 (DIN 2632). Nominal diameter in parenthesis are available on request.(4) Largest diameter of pump without motor.
MAXANA Bloc50 HzTechnical data
MAXANA Bloc on motor foot
Technical data
TM03
020
1 45
04
250
Pumpsize P2 [kW] IEC size a1 h1 h2 p m1 m2 n1 n2 h9 s1 DNs
(2) DNd(2)
Net weight
[kg]
32-200
7.5 132S 80 132 180 316 180 140 256 216 15 1250
(65)32
(40)
75
11.0 132S 80 132 180 316 180 140 256 216 15 12 9415.0 160M 80 160 180 316 256 210 300 254 18 15 107
40-1607.5 132S 80 132 160 264 180 140 256 216 15 12
65(80)
40(50)
70
11.0 132S 80 132 160 264 180 140 256 216 15 12 89
40-200
7.5 132S 100 132 180 316 180 140 256 216 15 12 76
11.0 132S 100 132 180 316 180 140 256 216 15 12 95
15.0 160M 100 160 180 316 256 210 300 254 18 15 10818.5 160L 100 160 180 316 300 254 300 254 18 15 125
50-125 7.5 132S 100 132 160 264 180 140 256 216 15 12
50(65)
74
50-160
7.5 132S 100 132 180 288 180 140 256 216 15 12 7211.0 132S 100 132 180 288 180 140 256 216 15 12 91
15.0 160M 100 160 180 288 256 210 300 254 18 15 104
18.5 160L 100 160 180 288 300 254 300 254 18 15 121
50-200
11.0 132S 100 132 200 316 180 140 256 216 15 12 98
15.0 160M 100 160 200 316 256 210 300 254 18 15 111
18.5 160L 100 160 200 316 300 254 300 254 18 15 128
22.0 160L 100 160 200 316 300 254 300 254 18 15 14965-125 7.5 132S 100 132 180 288 180 140 256 216 15 12
80(100)
65(80)
77
65-160
7.5 132S 100 132 200 308 180 140 256 216 15 12 77
11.0 132S 100 132 200 308 180 140 256 216 15 12 9615.0 160M 100 160 200 308 256 210 300 254 18 15 109
18.5 160L 100 160 200 308 300 254 300 254 18 15 126
22.0 160L 100 160 200 308 300 254 300 254 18 15 147
65-200
11.0 132S 100 132 225 348 180 140 256 216 15 12 103
15.0 160M 100 160 225 348 256 210 300 254 18 15 116
18.5 160L 100 160 225 348 300 254 300 254 18 15 13322.0 160L 100 160 225 348 300 254 300 254 18 15 154
Dimensions depend on housing size (DNs, DNd, a1, h2). See table of connections, page 47.
(1) Motor dimensions depend on make; motor dimensions show maximum size.(2) Flange dimensions are according to DIN EN 1092-1 (DIN 2632). Nominal diameter in parenthesis are available on request.(4) Largest diameter of pump without motor.
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Sanitary pumpsFurther product documentation
WebCAPSWebCAPS is a Web-based Computer Aided Product Selection program available on www.grundfos.com.
WebCAPS contains detailed information on more than 185,000 Grundfos products in more than 20 languages.
In WebCAPS, all information is divided into 6 sections:
• Catalogue• Literature• Service• Sizing• Replacement• CAD drawings.
Catalogue
This section is based on fields of application and pump types, and contains • technical data• curves (QH, Eta, P1, P2, etc) which can be adapted to the den-
sity and viscosity of the pumped liquid and show the number of pumps in operation
• product photos• dimensional drawings• wiring diagrams• quotation texts, etc.
Literature
In this section you can access all the latest documents of a given pump, such as• data booklets• installation and operating instructions• service documentation, such as Service kit catalogue and
Service kit instructions• quick guides• product brochures, etc.
Service
This section contains an easy-to-use interactive service catalogue. Here you can find and identify service parts of both existing and dis-continued Grundfos pumps.Furthermore, this section contains service videos showing you how to replace service parts.
Further product documentation
Sanitary pumps
Sizing
This section is based on different fields of application and installa-tion examples, and gives easy step-by-step instructions in how to• select the most suitable and efficient pump for your installation• carry out advanced calculations based on energy consumption,
payback periods, load profiles, life cycle costs, etc.• analyse your selected pump via the built-in life cycle cost tool• determine the flow velocity in wastewater applications, etc.
Replacement
In this section you find a guide to selecting and comparing replace-ment data of an installed pump in order to replace the pump with a more efficient Grundfos pump. The section contains replacement data of a wide range of pumps produced by other manufacturers than Grundfos.
Based on an easy step-by-step guide, you can compare Grundfos pumps with the one you have installed on your site. When you have specified the installed pump, the guide will suggest a number of Grundfos pumps which can improve both comfort and efficiency.
CAD drawings
In this section it is possible to download 2-dimensional (2D) and 3-dimensional (3D) CAD drawings of most Grundfos pumps.
These formats are available in WebCAPS:
2-dimensional drawings:• .dxf, wireframe drawings• .dwg, wireframe drawings.
3-dimensional drawings:• .dwg, wireframe drawings (without surfaces)• .stp, solid drawings (with surfaces)• .eprt, E-drawings.
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