e-sh Series Lenntech 60 Hz Tel Fax

Hz e-sh Series HORIZONTAL CENTRIFUGAL ELECTRIC PUMPS ACCORDING TO EN 733 MADE IN AISI 31 STAINLESS STEEL AND EQUIPPED WITH IE3 MOTORS Lenntech info@lenntech.com Tel. +31-1-1-9 www.lenntech.com Fax. +31-1-1-89 Cod. 191181 Rev. A Ed.7/1

Xylect TM Xylect TM is a pump solution software with an extensive online database of product information across the entire range of pumps and related products, with multiple search options and helpful project management facilities. The system holds up-to-date product information on thousands of products and accessories. Xylect TM can be available: On the website www.xylect.com On DVD Loop U On Mobile Apps For more information, please, see page 18-19. Lowara, Xylect are trademarks or registered trademarks of Xylem Inc. or one of its subsidiaries. All other trademarks or registered trademarks are property of their respective owners

CONTENTS General Introduction... Applications... Identification code...8 Rating plate...9 List of Models at Hz, poles...1 List of Models at Hz, poles...11 Pump cross-section and main components...1 Mechanical seals...17 Motors...18 Hydraulic performance range at Hz, poles... Table of hydraulic performances at Hz, poles...7 Hydraulic performance range at Hz, poles...9 Table of hydraulic performances at Hz, poles...3 Operating characteristics at Hz, poles...33 Operating characteristics at Hz, poles... Dimensions and weights...77 Accessories...93 Report and declarations...99 Technical appendix...11 3

e-sh SERIES HYDRAULIC PERFORMANCE RANGE AT Hz, POLES ESH 3 [rpm] ISO 99:1 - Grade 3B 3 7 8 9 1 Q [Imp gpm] 3 7 8 9 7 8 9 1 Q [US gpm] 3 7 8 9 1 1 8 3 8 H [m] 3 3 1 8 H [ft] 1 8 3 8 9 1 3 7 8 9 1 Q [m 3 /h] 3 8 1 Q [l/s] 3 8 1 A1_A_CH HYDRAULIC PERFORMANCE RANGE AT Hz, POLES ESH 17 [rpm] ISO 99:1 - Grade 3B 3 7 8 9 1 Q [Imp gpm] 3 3 3 7 8 9 1 Q [US gpm] 3 1 8 H [m] 1 8 3 8 3 H [ft] 3 1 8 7 8 9 1 Q [m 3 /h] 3 7 8 9 1 3 8 1 Q [l/s] 3 A13_A_CH

e-sh SERIES GENERAL INTRODUCTION The new and improved Lowara e-sh Series is a high performance stainless steel centrifugal end-suction electropump with single stage, axial flanged suction port, radial flanged discharge, and horizontal shaft. The e-sh is fully made in AISI 31 stainless steel which makes it suitable for handling water as well as nonaggressive or moderately aggressive fluids. The pumps are equipped with intercheangeable mechanical seals, IE3 efficiency motors, and have a back pull-out design (impeller, bracket and motor can be extracted without disconnecting the pump body from the piping). The e-sh series pumps are available in the following constructions: Extended shaft Close-coupled by means of an adaptor bracket with an impeller keyed directly to the special motor shaft extension. Frame mounted Flexible-coupled with bracket, support, flexing coupling (special version with spacer on demand), aligning and anchoring base. Stub shaft Rigid-coupled with a bracket, an adaptor and a rigid coupling keyed to the standard motor shaft extension. Bare shaft pump Version without driver suitable to be coupled with a standard electric motor. Hydraulic specifications Maximum delivery: up to m 3 /h for poles range. up to 1 m 3 /h for poles range. Maximum head: up to 117 m for poles range. up to 31 m for poles range. Hydraulic performance compliant with ISO 99:1 Grade 3B. Fluid temperature range: - standard version (with FKM* gaskets) -1 to +1 C - versions on request (with EPDM gaskets) -3 to +1 C. Maximum operating pressure: 1 bar @ C and 1 bar @ 1 C Connection dimensions according to EN 733 (except for ESH models) * Fluoro-elastomer: FPM (old ISO), FKM (ASTM & new ISO). Motor specifications Squirrel cage in short circuit enclosed construction with external ventilation (TEFC). -pole and -pole ranges. IP protection degree as motor (EN 3-), IPX as electro-pump (EN 9). Performances according to EN 3-1. IE3 efficiency level (three-phase from,7 kw). 1 (F) insulation class. Standard voltage: 1 x -3 V Hz. 3 x -3/38- V Hz. 3 x /38 and 3 x 38/ V Hz. Maximum ambient temperature: C. Note Anti-clockwise rotation when facing pump s suction port. Pump does not include counter-flanges. List of the Directives - Machinery Directive MD //EC and the main technical norms EN 89, EN -1 (safety) EN 19-1 (stainless steel flanges) - Electromagnetic Compatibility Directive EMCD /18/EC EN 1--1, EN 1--3 IEC 3-3, IEC 3-3-1 (electric motors)

e-sh SERIES COMMERCIAL BUILDING SERVICES (CBS) APPLICATIONS & BENEFITS Applications The Lowara e-sh Series is suitable for many different applications demanding reliable and efficient products that require constant or variable duty points in cost saving operation. The Lowara e-sh Series can be used for the following CBS applications: HVAC - Liquid transfer in heating and air-conditioning systems. - Liquid transfer in ventilation systems. - Liquid transfer with mildly aggressive liquids or environment. Water Supply - Pressure boosting in commercial buildings. - Irrigation systems. - Water transfer for green houses. Diverse OEM applications Benefits The Lowara e-sh Series permit to achieve the following benefits. Performances: the e-sh pumps are ErP 1 compliant, equipped with IE3 motors and provide improved performance vs. the old SH series of pumps. Its AISI 31 material configuration makes it ideal for pumping mildly aggressive liquids or pumping in aggressive environment. With a standard version designed for up to PN1 pressure rating, 1 C maximum fluid temperature, and FKM elastomer, and easy maintenance, the e-sh provides the solution to many CBS needs. Reliability: the high quality in production, the robust construction and operation, the easily interchangeable mechanical seals, and wear rings guarantee a continuous operation without faults and a shorter down time for maintenance. Total cost ownership: the best hydraulic and electric efficiency, the easy and quick maintenance, permit to reduce the operation and maintenance cost and to save energy when the pump is working. Pre-post sales support: we are continuously working close to our customers to help them in selecting the right pump for the specific application. An improved user-friendly selection software improved with many selection tools is available on the website, on DVD or on Apps for mobile phones. Experienced engineers are fully dedicated to big projects for Municipality. Features Discharge ports DN to DN8. Wide performance range up to 117 m head and m³/h flow. Nominal pressure of 1 bar. Wide range of temperatures for pumped liquids: -3 C to +1 C. Wide range of materials for many different kinds of pumped liquid. Wide range of voltages. High performance IE3 motors.

e-sh SERIES for INDUSTRY APPLICATIONS & BENEFITS Applications The Lowara e-sh Series is suitable for many different applications demanding reliable and efficient products. The reliability, robustness, and AISI 31 material configuration of the e-sh series makes it ideal for use in aggressive environments or for pumping of mildly aggressive fluids. Finally the e-sh series compactness and reliability allows for use in diverse OEM applications. The Lowara e-sh Series can be used for the following Industry applications: Process - Process cooling and Process heating - Heat recovery Water Supply - Pressure boosting - Irrigation systems - Water transfer for green houses - Liquid transfer with mildly aggressive liquids or environment. Water treatment - Washing and cleaning - Water treatment. Diverse OEM applications Benefits The Lowara e-sh Series permit to achieve the following benefits: Performances: the e-sh pumps are ErP 1 compliant, equipped with IE3 motors and provide improved performance vs. the old SH series of pumps. Its AISI 31 material configuration makes it ideal for pumping mildly aggressive liquids or pumping in aggressive environment. With a standard version designed for up to PN1 pressure rating, 1 C maximum fluid temperature, an FKM elastomer, and with easy maintenance, the e-sh provides the solution to many Industry needs. Reliability: the high quality in production, the robust construction and operation, the easily interchangeable mechanical seals, and wear rings guarantee a continuous operation without faults and a shorter down time for maintenance. Know How: the perfect configuration for an application can be made with the selection tool or with the support of our industrial experienced employees. Pre- and post-sales support: we are continuously working close to our customers to help them in selecting the right pump for the specific application. An improved user-friendly selection software improved with many selection tools is available on the website, on DVD or on Apps for mobile phones. Experienced engineers are fully dedicated to big projects for Municipality. Features Discharge ports DN to DN8. Wide performance range up to 117 m head and m³/h flow. Nominal pressure 1 bar. Wide range of temperatures for pumped liquids: -3 C to +1 C. Wide range of materials for many different kinds of pumped liquid. Wide range of voltages. High performance IE3 motors. 7

IDENTIFICATION CODE E S H F - 1 / 1 1 A / P V S N A Pump Type [3 digits] [ESH] = series name Coupling [1 digit] [ ] = bare shaft [E]= extended shaft [S] = stub shaft [F] = frame mounted [C] = spacer coupling frame mounted Motor operation [1 digit] [ ] = standard asynchronous motor [H] = equipped with Hydrovar [X] = other drives Motor power [ to 3 digits] kw x 1 or D + actual impeller diameter (mm) (bare shaft version) Special trimmed Impeller [blank or 1 digit] [A] = Trimmed diameter that doesn t maximize motor power [X] = Trimmed diameter to meet customer required duty point Motor type [ digits] [/P] = PLM [/S] = SM [/W] = Weg [/X] = Other N poles [1 digit] [] = poles [] = poles Mech Seal + Oring Config [1 digit] [A] = Ceramic/Carbon/FKM* [B] = Ceramic/Carbon/EPDM [] = SiC/Carbon/FKM* [] = SiC/Carbon/EPDM [W] = SiC/SiC/FKM* [Z] = SiC/SiC/EPDM [X] = other configurations Impeller Material [1 digit] [S] = Fabricated Stainless Steel (1.) [N] = Cast Stainless Steel (1.8) Size of the pump [ digits] Discharge diameter - nominal impeller diameter e.g. 3-1, -1 EXAMPLES Electrical Voltage + Frequency [digits] Hz H = 1x- V R = 3x-/38-1 V V = 3x38-1/-9 V P = 3x-8/3-3 V S = 3x-/- V T = 3x9-3/- V W = 3x-/- V Hz F = 1x-3 V E = 1x-1 V P = 3x-3/38- V R = 3x-77/-8 V V = 3x-8/- V U = 3x38-/-9 V N = 3x-8/3-3 V T = 3x33-3/7- V Casing Material [1 digit] [S] = Fabricated Stainless Steel (1.) * FPM (old ISO), FKM (ASTM & new ISO) ESHS 8-/3/WPSNA End-suction, electric pump with stub shaft coupling, DN 8 nominal discharge port, mm nominal impeller diameter, 3 kw rated motor power, WEG IE3 motor, -pole, Hz -3/38- V, fabricated stainless steel casing, cast stainless steel impeller, Ceramic/Carbon/FKM mechanical seal. ESHF 8-1/A/PPSNA End-suction, electric pump with frame mounted coupling, DN 8 nominal discharge port, 1 mm nominal impeller diameter,, kw rated motor power, trimmed impeller, PLM IE3 motor, -pole, Hz -3/38- V, fabricated stainless steel casing, cast stainless steel impeller, Ceramic/ Carbon/FKM mechanical seal. ESH -/DSSA End-suction, bare shaft pump, DN nominal discharge port, mm nominal impeller diameter, mm actual impeller diameter, fabricated stainless steel casing, fabricated stainless steel impeller, Ceramic/Carbon/FKM mechanical seal. 8

RATING PLATE ESHE, ESHS (ELECTRIC PUMP) 1 13 9 1 1 11 7 19 TYPE No/Date PN kpa tmax C tmin C Code Kg øf mm øt mm Q m³/h H m n 1/min P kw øf MEI øt ηp% REGULATION (EU) No 7/1 3 1 1 ESHF (ELECTRIC PUMP) ESH (PUMP ONLY) 1 13 1 1 9 7 1 13 9 1 11 1 7 19 No/Date REGULATION (EU) No 7/1 Code PN kpa t max C t min C kg ØF mm ØT mm Q m3/h H m n 1/min Pmax kw ØF MEI ØT np% REGULATION (EU) No 7/1 11 19 3 1 1 3 1 1 LEGEND 1 - Electric pump unit type - Electric pump unit code 3 - Flow range - Head range - Nominal or maximum pump power - Speed 7 - Serial number, or order number + order position number 9 - Full impeller diameter (only filled in for trimmed impellers) 1 - Trimmed impeller diameter (only filled in for trimmed impellers) 11 - Minimum operating liquid temperature 1 - Maximum operating liquid temperature 13 - Maximum operating pressure 1 - Hydraulic efficiency in best efficiency point ( Hz) 1 - Minimum efficiency index MEI, as per Regulation (EU) No 7/1 ( Hz) 19 - Weight LEGEND 1 - Pump type - Pump code 3 - Flow range - Head range - Maximum absorbed pump power - Speed 7 - Serial number, or order number + order position number 9 - Full impeller diameter (only filled in for trimmed impellers) 1 - Trimmed impeller diameter (only filled in for trimmed impellers) 11 - Minimum operating liquid temperature 1 - Maximum operating liquid temperature 13 - Maximum operating pressure 1 - Hydraulic efficiency in best efficiency point ( Hz) 1 - Minimum efficiency index MEI, as per Regulation (EU) No 7/1 ( Hz) 19 - Weight Note for electric pump unit: refer to motor data plate for electrical data. 9

LIST OF MODELS AT Hz, POLES (*) Models available also in single-phase version. = Available ESH_models-p-en_a_sc LEGEND ESHE : Extended shaft. ESHS : Stub shaft. ESHF : Frame mounted. 1

LIST OF MODELS AT Hz, POLES = Available ESH_models-p-en_a_sc 11

ESHE SERIES ELECTRIC PUMP CROSS-SECTION AND MAIN COMPONENTS ESHE-p-en_a_mo ESHE-en_c_tm 1

ESHE SERIES ELECTRIC PUMP CROSS-SECTION AND MAIN COMPONENTS (ESHE) VERSIONS POLES POLES -/1 8-/11 -/1 -/18 -/ -/1 -/18 -/ 8-1/1 8-1/18 8-/ ESHE-s-en_a_mo ESHE-p-en_a_mo ESHE-en_c_tm 13

ESHS SERIES ELECTRIC PUMP CROSS-SECTION AND MAIN COMPONENTS B ESHS-p-en_a_mo ESHS-en_c_tm 1

ESHS SERIES ELECTRIC PUMP CROSS-SECTION AND MAIN COMPONENTS B3 ESHS-s-en_a_mo ESHS-en_c_tm 1

ESH, ESHF SERIES ELECTRIC PUMP CROSS-SECTION AND MAIN COMPONENTS B3 ESHF-p-en_a_mo ESHF-en_c_tm 1

MECHANICAL SEAL (Mechanical seal with mounting dimensions according to EN 17 and ISO 39.) Standard version Version with fixed assembly anti-rotation sh_ten-mec-en_b_tm TYPE POSITION 1 3 ROTATING ASSEMBLY FIXED ASSEMBLY ELASTOMERS SPRINGS OTHER COMPONENTS TEMPERATURE STANDARD MECHANICAL SEAL V B V G G V B V G G -1 +1 OTHER MECHANICAL SEAL TYPES Q 1 B V G G Q 1 B V G G -1 +1 Q 1 Q 1 V G G Q 1 Q 1 V G G -1 +1 V B E G G V B E G G -3 +1 Q 1 B E G G Q 1 B E G G -3 +1 Q 1 Q 1 E G G Q 1 Q 1 E G G -3 +1 ( C ) sh_tipi-ten-mec-en_a_tc PRESSURE / TEMPERATURE APPLICATIONS LIMITS FOR COMPLETE PUMP (APPLICABLE WITH ANY OF THE SEALS LISTED ABOVE) 17

MOTORS Short-circuit squirrel-cage motor, enclosed construction with external ventilation (TEFC). Rated power from 1,1 to 7 kw for -pole range and from, to 11 kw for -pole range. Maximum ambient temperature: C. IP protection degree. Insulation class 1 (F). Standard three-phase surface motors,7 kw supplied as IE3. IE efficiency level according to IEC 3-3 and IEC 3-3-1 (,7 kw). Electrical performances according to EN 3-1. Metric cable gland according to EN. Standard voltage Single-phase version: -3 V Hz Built-in automatic reset overload protection. Three-phase -pole version: -3/38- V Hz for power up to kw. /38 V Hz for WEG motors, power from to kw. 38/ V Hz for power above kw. Three-phase -pole version: -3/38- V Hz. Overload protection to be provided by the user. PTC included as standard only for WEG motors (one per phase, 1 C). ESHE SERIES SINGLE-PHASE MOTORS AT Hz, POLES η ϕ 18

ESHE SERIES THREE-PHASE MOTORS AT Hz, POLES η ϕ V 19

ESHS SERIES THREE-PHASE MOTORS AT Hz, POLES (up to kw) η ϕ V

ESHF, SERIES THREE-PHASE MOTORS AT Hz, POLES (up to 18, kw) η ϕ V 1

ESHS SERIES (B3 from 3 to 37 kw) ESHF, SERIES (B3 from to 7 kw) THREE-PHASE MOTORS AT Hz, POLES η ϕ V

ESHE SERIES THREE-PHASE MOTORS AT Hz, POLES η ϕ V 3

ESHS SERIES (B/B3 from, to 11 kw) ESHF SERIES (B3 from, to 11 kw) THREE-PHASE MOTORS AT Hz, POLES η ϕ V

MOTOR NOISE The tables below show the mean sound pressure levels (Lp) measured at 1 meter s distance in a free field according to the A curve (ISO 18 standard). The noise values are measured with idling Hz motor with a tolerance of 3 db (A). ESHE, ESHS MOTORS POLES Hz ESHF MOTORS POLES Hz ESHE MOTORS POLES Hz ESHS, ESHF MOTORS POLES Hz ESH_mott-en_a_tr

HYDRAULIC PERFORMANCE RANGE AT Hz, POLES ESH 3 [rpm] ISO 99:1 - Grade 3B 8 1 Q [Imp gpm] 8 8 1 Q [US gpm] 8 1 1 9 3 8 7 3- - - - - 8- H [ft] H [m] 3- - - - 8- - 3 1 3-1 -1-1 -1-1 8-1 9 8 7 1 3-1 -1-1 -1 1 9 3 8 7 - - - - SERIES 8 1 3 7 8 1 Q [m3/h] 8 1 Q [l/min] 99D_D_CH

ESH, 3,, SERIES HYDRAULIC PERFORMANCE TABLE AT Hz, POLES η η η 7

ESH, 8 SERIES HYDRAULIC PERFORMANCE TABLE AT Hz, POLES η η 8

HYDRAULIC PERFORMANCE RANGE AT Hz, POLES ESH 17 [rpm] ISO 99:1 - Grade 3B 3 8 1 Q [Imp gpm] 3 3 8 1 Q [US gpm] 3 3 1 9 8 7 1 3- - - - - 8-1 9 8 3- - - - - 8-3 H [m] 7 3-1 -1 H [ft] 3-1 -1-1 -1-1 8-1 -1-1 3 1 9 8 7 1. - - - - SERIES 7 8 1 3 7 8 1 8 1 8 1 Q [l/min] Q [m3/h] 91D_D_CH 9

ESH, 3,, SERIES HYDRAULIC PERFORMANCE RANGE AT Hz, POLES η η η 3

ESH, 8 SERIES HYDRAULIC PERFORMANCE RANGE AT Hz, POLES η η 31

IDENTIFICATION OF IMPELLER TYPOLOGY Max efficiency η[%] η [%] 3 1 Max η[%] efficiency η [%] 3 REF TYPE DESCRIPTION 1 3 Full Diameter impeller operating range Trimmed diameter impeller operating range Isoefficiency curves 9_C_SC 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 7 8 Q 9 [Imp gpm] H[m] 18 1 1 1 1 8 8 1 3 7 8 9 1 Q 11 [US gpm] 8 1. η[%] 8-1/11 Ø1 3 1 H [ft] NPSH[m] -1/11 Ø1 1 NPSH[ft] Pp[kW] 1. 1..8.. -1/11 Ø1 1. 1.. Pp[HP]... 1 1 Q [m 3 /h] 1 3 Q [l/s] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 33

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 3 8 1 8 1 1 Q [Imp gpm] Q [US gpm] 3 8 η[%] 1 3. 8 H[m] 1.9 8 H [ft] 1-1/ Ø138-1/1 Ø1 NPSH[m] -1/ Ø138 1 1 NPSH[ft] Pp[kW].. 1. 1... -1/1 Ø1-1/ Ø138. 1 1 Q 3 [m 3 /h] 1 3 7 8 3... 1. 1.. Q [l/s] Pp[HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 8 Q 1 [Imp gpm] 8 1 1 Q [US gpm] 1 3 7 9 1 η[%] 3 1.1 1 3 3. 3 1 1 H[m] -/ Ø17 8 H [ft] -/3 Ø19 1 NPSH[m] -/ Ø17 1 1 NPSH[ft] 3 -/ Ø17 Pp[kW] -/3 Ø19 3 Pp[HP] 1 1 8 1 1 Q 8 [m 3 /h] 1 3 7 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 8 1 Q [Imp gpm] 1 8 1 1 Q 1 [US gpm] 8 37 39 1 3 7 8. η[%] 3. -/11 Ø H[m].1.3 -/7 Ø197 -/** Ø8 1 H [ft] -/ Ø183 1 1 3 NPSH[m] -/11 Ø 1 NPSH[ft] 1 1 Pp[kW] 8 -/11 Ø -/** Ø8 -/7 Ø197 -/ Ø183 1 Pp[HP] 8 1 1 8 Q 3 [m 3 /h] 1 3 7 8 Q [l/s] **= 9. kw (/9) ESHE, **= 11 kw (/11A) ESHS, ESHF ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3-1 ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 7 8 Q 9 [Imp gpm] 18 1 1 1 3 7 8 9 1 Q 11 [US gpm] 7 9 1 3 η[%]. H[m] 1 1 8 3 1 9 3-1/11 Ø1 3 H [ft] 1 1. NPSH[m] 1.. 3-1/11 Ø1 NPSH[ft] Pp[kW]. 1. 1..8.. 3-1/11 Ø1 1. 1.. Pp[HP]... 1 1 Q [m 3 /h] 1 3 Q [l/s] ESH3-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 37

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3-1 ~ 3 [rpm] ISO 99:1 - Grade 3B 3 8 1 8 1 1 Q [Imp gpm] Q [US gpm] 3 7 8 η[%] 1 9.1 8 H[m] 1 7. 8 7 H [ft] 1 3-1/1 Ø1 3-1/ Ø138 NPSH[m] 3-1/ Ø138 1 1 NPSH[ft] Pp[kW].. 1. 1.. 3-1/1 Ø1 3-1/ Ø138 3 1 Pp[HP]. 1 1 Q 3 [m 3 /h] 1 3 7 8 Q [l/s] ESH3-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 38

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3- ~ 3 [rpm] ISO 99:1 - Grade 3B 8 Q 1 [Imp gpm] H[m] 3 3 8 1 1 Q [US gpm] 8.. η[%] 3-/ Ø17 1 1 1 1 8 H [ft] 1 1 3-/3 Ø19 3 1 NPSH[m] 1 3-/ Ø17 NPSH[ft] Pp[kW] 3 1 3-/ Ø17 3-/3 Ø19 Pp[HP] 8 1 1 Q 8 [m 3 /h] 1 3 7 Q [l/s] ESH3-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 39

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3- ~ 3 [rpm] ISO 99:1 - Grade 3B 8 1 1 Q [Imp gpm] 1 8 1 1 1 Q [US gpm] H[m] 9 8 7 8 8.9 9...7 3-/11 Ø 3-/** Ø8 3-/7 Ø197 η[%] 3 1 H [ft] 3 1 3-/ Ø183 1 NPSH[m] 1 8 3-/11 Ø 3 1 NPSH[ft] Pp[kW] 1 1 8 3-/ Ø183 3-/** Ø8 3-/7 Ø197 3-/11 Ø 1 1 3 Q 3 [m 3 /h] 1 3 7 8 9 **= 9. kw (/9) ESHE, **= 11 kw (/11A) ESHS, ESHF 1 1 Q [l/s] Pp[HP] ESH3-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 8 1 1 1 1 Q 18 [Imp gpm] 8 1 1 1 1 18 Q [US gpm] 8 8 9 7 7. η[%] 7 H[m] 1 1 9. 7 9 8-1/ Ø11 3 H [ft] -1/1 Ø1 1 NPSH[m] -1/ Ø11 1 1 NPSH[ft] Pp[kW]. 1. 1... 8 1 1-1/ Ø11-1/1 Ø1. 1 3 Q [m 3 /h].. 1. 1.. Q [l/s] Pp[HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 1

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 1 1 Q [Imp gpm] 1 1 Q [US gpm] 3 3 η[%]. 1 1 8 H[m] 1 7. -1/ Ø1 H [ft] 1-1/3 Ø13 NPSH[m] -1/ Ø1 1 1 NPSH [ft] 3-1/ Ø1 Pp[kW] -1/3 Ø13 3 P P [HP] 1 1 3 Q [m 3 /h] 8 1 1 1 1 1 Q [l/s] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 1 1 Q [Imp gpm] 1 1 Q [US gpm] 8 η[%] 3 3.9 18 1 H[m] 3 1. 3 8 -/7 Ø181 -/ Ø1 1 1 1 8 H [ft] 1 NPSH[m] -/7 Ø181 1 1 NPSH [ft] 8 -/7 Ø181 1 8 Pp[kW] -/ Ø1 P P [HP] 1 3 Q [m 3 /h] 8 1 1 1 1 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 1 1 Q [Imp gpm] 1 1 1 Q [US gpm] 8 8 9. η[%] 3 8 9.9 H[m] 9. -/1 Ø1 -/11 Ø198 -/** Ø187 H [ft] 1 1 NPSH[m] 1 -/1 Ø1 3 1 NPSH [ft] 1 Pp[kW] 1 -/** Ø187 -/11 Ø198 -/1 Ø1 1 1 P P [HP] 1 3 Q [m 3 /h] 8 1 1 1 1 Q [l/s] **= 9. kw (/9) ESHE, **= 11 kw (/11A) ESHS, ESHF ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 8 1 1 3 1 1 3 3 Q [Imp gpm] Q [US gpm] 9 7 η[%] 8 H[m] 1 1 71. 73.9 7 7 8 7 H [ft] 8-1/ Ø117 3-1/3 Ø1 1 8 NPSH[m] -1/ Ø117 1 NPSH[ft] Pp[kW] 3 1-1/3 Ø1-1/ Ø117 1 3 7 8 Q 9 [m 3 /h] 1 1 Q [l/s] 3 1 Pp[HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 1 1 3 3 Q [Imp gpm] 1 1 3 3 Q [US gpm] 1 8 7 7 73 7 η[%] 1 1 H[m] 3 73. 7.3 7 73 7 7 8-1/7 Ø18 1 8 H [ft] 1-1/ Ø13 1 3 NPSH[m] -1/7 Ø18 1 NPSH [ft] 8 1-1/7 Ø18 8 Pp[kW] -1/ Ø13 P P [HP] 1 3 7 8 9 Q 1 [m 3 /h] 1 1 Q [l/s] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 1 1 3 1 1 3 3 Q [Imp gpm] Q [US gpm] 8 7 7 73 7.1 η[%] 1 H[m] 3 7. 73 7 7 8 -/11 Ø17 -/** Ø18 1 H [ft] 1 NPSH[m] -/11 Ø17 1 1 NPSH [ft] Pp[kW] 1 8 -/11 Ø17 -/** Ø18 1 3 7 8 Q 9 [m 3 /h] 1 1 Q [l/s] **= 9. kw (/9) ESHE, **= 11 kw (/11A) ESHS, ESHF 1 1 8 P P [HP] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 1 1 3 3 Q [Imp gpm] 9 8 7 1 1 3 3 8 η[%].7 8.9 Q [US gpm] H[m]. -/ Ø1 -/18 Ø 1 H [ft] 3 -/1 Ø189 1 1 8 -/ Ø1 NPSH[m] 1 NPSH [ft] Pp[kW] 1 1 8 -/ Ø1 -/18 Ø -/1 Ø189 3 1 1 P P [HP] 1 3 7 8 9 Q 1 [m 3 /h] 1 1 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 8

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 3 1 3 Q [US gpm] 8 7 7 7 η[%] 7 77. 1 1 3 7. 7 1 H[m] 1 1 73. 7. 8 7 7-1/7 Ø13-1/ Ø1 7-1/11 Ø1-1/** Ø1 8 H [ft] 8-1/11 Ø1 NPSH[m] 1 NPSH[ft] Pp[kW] 1 1 8 1 1 3 3 **= 9. kw (/9) ESHE, **= 11 kw (/11A) ESHS, ESHF The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. -1/ Ø1-1/7 Ø13-1/11 Ø1-1/** Ø1 8 1 1 Q 1 [m 3 /h] 1 1 Q [l/s] Pp[HP] ESH-1_P_A_CH 9

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 7 1 3 Q [US gpm] 3 η[%] 7 8. H[m] 3 8 8. 9.1 8 7 3 -/ Ø183 -/18 Ø17 -/1 Ø1 1 1 H [ft] 1 NPSH[m] 1 8 -/ Ø183 3 1 NPSH [ft] -/ Ø183 3 Pp[kW] 1 1 -/18 Ø17 -/1 Ø1 8 1 1 Q 1 [m 3 /h] 1 1 3 3 1 Q [l/s] P P [HP] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 1 1 3 Q 7 [US gpm] H[m] 1 8 8 7 73 7 73.9 η[%] 73.1 7 73 7 8 -/37 Ø1 3 3 H [ft] -/3 Ø 1 1 NPSH[m] -/37 Ø1 1 1 NPSH [ft] Pp[kW] 3 1 -/37 Ø1 -/3 Ø 8 1 1 1 Q 1 [m 3 /h] 1 1 3 3 3 1 Q [l/s] P P [HP] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 1

OPERATING CHARACTERISTICS AT Hz, POLES ESH 8-1 ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 7 Q 8 [Imp gpm] 1 3 7 8 9 Q [US gpm] 1 8 9 7 η[%] 1 71.7 1 H[m] 3 9.1 7 9 8 1 8 H [ft] 1 8-1/18 Ø1x1 8-1/1 Ø1x1 1 3 NPSH[m] 8-1/18 Ø1x1 1 NPSH [ft] Pp[kW] 1 1 8-1/18 Ø1x1 8-1/1 Ø1x1 8 1 1 1 1 18 Q [m 3 /h] 1 3 1 1 P P [HP] Q [l/s] ESH8-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH 8- ~ 3 [rpm] ISO 99:1 - Grade 3B 8 1 Q [Imp gpm] 8 8 1 1 Q [US gpm] 7 7 7 7 77 78 η[%] 78.1 78 H[m] 3 7.3 8.1 7 7 7 77 7 7 8-/ Ø17x1 7 8-/3 Ø18 8-/37 Ø193 1 H [ft] 1 1 8 NPSH[m] 8-/37 Ø193 1 NPSH [ft] Pp[kW] 3 1 1 3 7 8-/37 Ø193 8-/3 Ø18 8-/ Ø17x1 8 1 1 8 Q [m 3 /h] 3 1 P P [HP] Q [l/s] ESH8-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH 8- ~ 3 [rpm] ISO 99:1 - Grade 3B 1 3 7 8 Q 9 [Imp gpm] 1 8 1 Q [US gpm] 1 7 73 7 77 η[%] 78. 1 77 7 3 H[m] 8 78 79.9 78.9 78 7 8-/7 Ø37 8-/ Ø1 8-/ Ø1 1 H [ft] 1 8-/7 Ø37 3 NPSH[m] 1 NPSH [ft] 8 1 8-/7 Ø37 8 Pp[kW] 1 3 8-/ Ø1 8-/ Ø1 1 1 Q [m 3 /h] P P [HP] Q [l/s] ESH8-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 8 1 3 Q [US gpm] 7 8 η[%] H[m] 3.7 8-1/ Ø18 1 1 H [ft] 1 1. -1/ Ø18 3 NPSH[m]. 1 NPSH[ft] Pp[kW]..3..1-1/ Ø18..3..1 Pp[HP].. 8 1 1 Q 1 [m 3 /h].. 1. 1... 3. 3. Q [l/s] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 1 8 1 3 Q 7 [US gpm] 7 9 3 1 η[%].3 H[m] 9.9 1 9 7 3 1 1 H [ft] 1. -1/3-1/ Ø1 Ø138 1 NPSH[m]. -1/3 Ø1 NPSH[ft]... Pp[kW].3..1. -1/ Ø138.. 1. 1... 3. 3.. -1/3 Ø1. 8 1 1 1 Q 1 [m 3 /h]..3..1 Q [l/s] Pp[HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 1 1 3 Q 7 [US gpm] 1 1 8 3 7 9 1 1. η[%]. 1 9 7 3 3 H[m] -/ Ø178 H [ft] -/3 Ø19 1 1 -/ Ø178 NPSH[m] 1 NPSH[ft]..8 Pp[kW].. -/ Ø178 -/3 Ø19... Pp[HP].. 8 1 1 1 Q 1 [m 3 /h].. 1. 1... 3. 3.. Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 1 3 7 Q [Imp gpm] Q [US gpm] 3 37 39 1 3 3.3 η[%] 7 H[m] 1 1 8 1.. 3 1 39 -/1 Ø 37 -/11 Ø3 3 H [ft] -/7 Ø183 1 1 NPSH[m] -/1 Ø NPSH[ft] Pp[kW] 1. 1.. -/1 Ø -/11 Ø3 -/7 Ø183. 1. 1.. Pp[HP].. 8 1 1 1 1 Q 18 [m 3 /h].. 1. 1... 3. 3.... Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 8

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3-1 ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 8 1 3 Q [US gpm] 7 8 η[%] H[m] 3 3. 8 3-1/ Ø18 1 1 H [ft] 1 NPSH[m] 1. 1.. 3-1/ Ø18 NPSH[ft]... Pp[kW]..1.1. 3-1/ Ø18.3..1 Pp[HP].. 8 1 1 Q 1 [m 3 /h].. 1. 1... 3. 3. Q [l/s] ESH3-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 9

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3-1 ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 1 9 8 7 1 3 Q 7 [US gpm] 7 9 1 3 7 η[%] 8.8 3 7 H[m] 3 1. 3 3-1/ Ø138 1 3-1/3 Ø1 1 1 H [ft] NPSH[m]. 1. 1.... 3-1/3 Ø1 NPSH[ft]. Pp[kW].3..1. 3-1/ Ø138 1 3 3-1/3 Ø1. 8 1 1 1 Q 1 [m 3 /h]..3..1 Q [l/s] Pp[HP] ESH3-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3- ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 1 1 3 Q 7 [US gpm] 1 1 8 7 9 1. 3 3. η[%] 3 1 9 3 3 H[m] 3-/ Ø178 H [ft] 3-/3 Ø19 1 1 3-/ Ø178 NPSH[m] 1 NPSH[ft]..8. 3-/ Ø178. Pp[kW]. 3-/3 Ø19.. Pp[HP].. 8 1 1 1 Q 1 [m 3 /h].. 1. 1... 3. 3.. Q [l/s] ESH3-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 1

OPERATING CHARACTERISTICS AT Hz, POLES ESH 3- ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 7 Q [Imp gpm] 1 3 7 8 Q [US gpm] 37 39 1 3 η[%] 7 7 7. 1 7. 7 H[m] 1 8. 3-/11 Ø3 3-/1 Ø 3 H [ft] 3-/7 Ø183 1 NPSH[m] 3-/1 Ø 1 NPSH[ft] Pp[kW] 1. 1.. 3-/7 Ø183 3-/11 Ø3 3-/1 Ø. 1. 1.. Pp[HP].. 8 1 1 1 1 18 Q [m 3 /h] 1 3 Q [l/s] ESH3-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 8 8 1 8 1 1 Q [Imp gpm] Q [US gpm] 7 9 1 3 7 9 9.3 η[%] 9 H[m] 3 8.3 7 3 1 9-1/3 Ø13 1 1 H [ft] 1-1/ Ø11 NPSH[m] 3 1-1/3 Ø13 8 NPSH[ft]...3-1/3 Ø13. Pp[kW]..1. -1/ Ø11. 1 1 Q 3 [m 3 /h] 1 3 7 8.3..1 Q [l/s] Pp[HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 3

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 8 Q 1 [Imp gpm] 1 8 1 1 Q [US gpm] 9 8 8 η[%] 3 7.1 H[m] 3.3 8 1 H [ft] 3-1/ Ø1 1 1-1/3 Ø13 NPSH[m] 3 1-1/ Ø1 8 NPSH [ft] Pp[kW]...3..1. 1 3 7-1/ Ø1-1/3 Ø13. 8 1 1 Q 8 [m 3 /h]....3..1 Q [l/s] P P [HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 8 Q 1 [Imp gpm] 1 8 1 1 Q [US gpm] 1 1 8 1.8 η[%] H[m] 1 8 1. 8 3 H [ft] -/11 Ø181 -/7 Ø1 1 NPSH[m] -/11 Ø181 1 1 NPSH [ft] 1. Pp[kW].8.. -/11 Ø181 -/7 Ø1 1.. P P [HP]... 8 1 1 Q 8 [m 3 /h] 1 3 7 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 8 Q 1 [Imp gpm] 18 8 1 1 Q [US gpm] 1 3 η[%] 7 9 9.9 9 7 H[m] 1 1 1 1 8 7.1 8.1 3 1 7 -/ Ø18 -/1 Ø198 -/11 Ø187 3 H [ft] 1 8 NPSH[m] -/ Ø18 1 NPSH [ft].. 1. -/ Ø18. Pp[kW] 1... -/1 Ø198 -/11 Ø187. 8 1 1 Q 8 [m 3 /h] 1 3 7 1. 1.. Q [l/s] P P [HP] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec.

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 8 1 1 1 Q [Imp gpm] 7 8 1 1 1 1 Q [US gpm] 7 71 η[%] 71.9 H[m] 3 7.9 71 7 9 7 3 1 1 H [ft] 1-1/ Ø117-1/3 Ø1 3 NPSH[m] 1-1/ Ø117 8 NPSH[ft].. -1/ Ø117. Pp[kW].3..1. -1/3 Ø1. 1 1 3 3 Q [m 3 /h] 8 1.. Q [l/s] Pp[HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 8 1 1 1 1 Q [Imp gpm] 1 1 1 Q [US gpm] 1 8 8 7 7 73.1 η[%] 3 3 H[m] 71.3 7 7 8-1/11 Ø18-1/7 Ø13 1 1 H [ft] NPSH[m] -1/11 Ø18 1 1 NPSH [ft] Pp[kW] 1..8.... -1/7 Ø13 8 1 1-1/11 Ø18. 8 1 1 8 3 3 Q 8 [m 3 /h] 1. 1..8... Q [l/s] P P [HP] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 8

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 8 1 1 1 1 Q [Imp gpm] H[m] 1 1 1 1 8 1 1 Q [US gpm] η[%] 8 7 71.3 7 8 7.1 3 H [ft] -/1 Ø17 -/11 Ø18 1 NPSH[m] -/1 Ø17 1 1 NPSH [ft] Pp[kW] 1. 1..8 -/1 Ø17 -/11 Ø18. 1. 1. P P [HP].... 8 1 1 8 3 3 Q 8 [m 3 /h] 8 1 1 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 9

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 8 1 1 1 1 Q 18 [Imp gpm] 3 1 1 Q [US gpm] 9 η[%] 8 H[m] 1 8 9 7.9 9. 7. -/3 Ø 7 H [ft] 1 9 8 -/ Ø1 3 -/A Ø189 1 8 NPSH[m] -/3 Ø 1 NPSH [ft] Pp[kW] 3 -/3 Ø -/ Ø1 3 P P [HP] 1 8 1 1 -/A Ø189 1 1 3 3 Q [m 3 /h] 1 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH -1 ~ 17 [rpm] ISO 99:1 - Grade 3B 1 1 Q [Imp gpm] 1 1 1 3 Q 3 [US gpm] 1 3 7 9 71 73 η[%] 3 3 8 7.1 73.3 73 H[m].8 71. 71 9 7 3-1/1 Ø1-1/11 Ø1-1/11A Ø13-1/7 Ø1 1 1 H [ft] 3 NPSH[m] 1-1/1 Ø1 8 NPSH[ft] 1. -1/1 Ø1. 1. -1/11 Ø1 1. Pp[kW]. -1/7 Ø1-1/11A Ø13 1.. Pp[HP].. 1 3 7 Q 8 [m 3 /h] 1 1 Q [l/s] ESH-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 71

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 1 1 Q [Imp gpm] 1 1 3 Q 3 [US gpm] H[m] 18 1 1 1 1 8 7 71 8 7. η[%] 9. 7.3 71 7 8 -/1 Ø1 -/ Ø177 -/3 Ø19 3 1 H [ft] 1 3 NPSH[m] -/3 Ø19 1 NPSH [ft] 3 Pp[kW] 1 -/1 Ø1 -/ Ø177 -/3 Ø19 3 1 P P [HP] 1 3 7 Q 8 [m 3 /h] 1 1 Q [l/s] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH - ~ 17 [rpm] ISO 99:1 - Grade 3B 1 1 Q [Imp gpm] 3 1 1 3 Q 3 [US gpm] H[m] 1 3 7.1. η[%] 3 9 8 7 H [ft] -/ Ø3 1 -/ Ø 3 1 8 NPSH[m] -/ Ø3 1 NPSH [ft] 8 Pp[kW] 3 1 1 1 -/ Ø3 -/ Ø 1 3 7 Q 8 [m 3 /h] Q [l/s] P P [HP] ESH-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 73

OPERATING CHARACTERISTICS AT Hz, POLES ESH 8-1 ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 1 1 3 Q [US gpm] 1 8 7 η[%] 3 3 8 7 7. H[m] 73.1 7 7 8 8-1/ Ø1x1 1 H [ft] 8-1/A Ø1x1 1 NPSH[m] 1 3 8-1/ Ø1x1 1 1 NPSH [ft] Pp[kW] 1 8-1/ Ø1x1 8-1/A Ø1x1 3 1 P P [HP] 8 1 1 Q 1 [m 3 /h] 1 1 3 3 Q [l/s] ESH8-1_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH 8- ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 18 1 3 Q [US gpm] 1 1 7 7 7 7 78 η[%] 1 79. 78 H[m] 1 8 8.1 7 7 7 7 3 H [ft] 8-/ Ø18 8-/3 Ø177 1 8 NPSH[m] 8-/ Ø18 1 NPSH [ft] 3 8-/ Ø18 Pp[kW] 8-/3 Ø177 3 P P [HP] 1 8 1 1 Q 1 [m 3 /h] 1 1 3 3 1 Q [l/s] ESH8-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

OPERATING CHARACTERISTICS AT Hz, POLES ESH 8- ~ 17 [rpm] ISO 99:1 - Grade 3B 1 3 Q [Imp gpm] 3 1 3 Q 7 [US gpm] 3 71 73 7 77 79 η[%] 1 8. H[m] 79.7 79 77 7 73 71 8 H [ft] 1 1 7.9 8-/11 Ø37 8-/7 Ø 8-/ Ø1 1 3 NPSH[m] 8-/11 Ø37 1 NPSH [ft] Pp[kW] 1 8 8-/ Ø1 8-/7 Ø 1 1 3 3 8-/11 Ø37 8 1 1 1 Q 1 [m 3 /h] 1 1 8 Q [l/s] P P [HP] ESH8-_P_A_CH The NPSH values are laboratory values; for practical use we suggest increasing these values by, m. These performances are valid for liquids with density ρ = 1, Kg/dm 3 and kinematic viscosity ν = 1 mm /sec. 7

DIMENSIONS AND WEIGHTS 77

ESHE SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES 78

ESHE SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES ESHE_p-en_a_td 79

ESHE SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES 8

ESHE SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES ESHE_p-en_a_td 81

ESHS SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES 8

ESHS SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES ESHS_p-en_a_td 83

ESHS SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES 8

ESHS SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES ESHS_p-en_a_td 8

DIMENSIONS AND WEIGHTS (BARE SHAFT) 8

DIMENSIONS AND WEIGHTS (BARE SHAFT) PUMP TYPE DIMENSIONS (mm) WEIGHT ESH PUMP SUPPORT SHAFT B k (BARE SHAFT) DNM DNA a f h1 h b c m m1 n n1 s w d l t u kg -1 8 3 11 1 7 3 1 7 19 1 1 7 8 18 98 1-1 8 3 13 1 8 3 1 7 19 1 7 8 3 98 17-8 3 1 18 7 3 1 7 19 1 7 8 8 98-1 3 18 1 9 3 1 7 8 3 98 3 3-1 3 8 3 11 1 7 3 1 7 19 1 1 7 8 18 98 1 3-1 3 8 3 13 1 8 3 1 7 19 1 7 8 3 98 17 3-3 8 3 1 18 7 3 1 7 19 1 7 8 8 98 3-3 1 3 18 1 9 3 1 7 8 3 98 3-1 8 3 11 1 7 3 1 7 1 1 1 7 8 18 1 1-1 8 3 13 1 8 3 1 7 19 1 7 8 3 1 18-1 3 1 18 3 1 7 1 1 7 8 8 1-1 3 18 1 9 3 1 7 8 3 17 33-1 1 3 13 1 8 3 1 7 19 1 7 8 3 1 17-1 1 3 1 18 8 3 1 7 1 1 7 8 3 1-1 3 1 1 7 1 1 7 8 31 1 3-1 3 18 1 9 3 1 7 8 3 17 37-1 8 1 3 1 8 1 9 8 1 1 7 8 31 13 31-8 1 3 18 1 1 9 3 1 7 8 31 13-8 1 7 8 18 1 1 3 8 18 3 3 8 3 1 3 1 8-1 8 1 1 3 18 1 9 3 1 7 8 3 1 37 8-8 1 1 7 18 1 1 9 3 8 1 3 3 8 3 1 3 1 8-8 1 1 7 8 8 18 1 1 31 18 3 3 8 3 1 383 1 7 ESHbs-en_a_td 87

ESHF SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES 88

ESHF SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES ESHF_p-en_a_td 89

ESHF SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES 9

ESHF SERIES DIMENSIONS AND WEIGHTS AT Hz, POLES ESHF_p-en_a_td 91

9

ACCESSORIES 93

FLEXIBLE COUPLING DIMENSIONS REF. DENOMINATION SIZE x d 1 x d d 1 H7 l 1 b 1 js9 +. t s q A1 B 8 x x 1 8 7,3 M 1 1 1,3 M 8 A B 8 x x 19 8 7,3 M 1 19 1,8 M 8 A3 B 8 x x 8 7,3 M 1 8 7,3 M 8 B1 B 8 x x 8 3 8 7,3 M 19 8 3 8 31,3 M 1 C1 B 9 x x 38 3 8 7,3 M 38 3 1 1,3 M 1 C B 9 x x 3 8 7,3 M 3 1,3 M 1 C3 B 9 x 3 x 8 3 3 1 3,3 M 8 3 8 31,3 M 1 C B 9 x 3 x 38 3 3 1 3,3 M 38 3 1 1,3 M 1 C B 9 x 3 x 3 3 1 3,3 M 3 1,3 M 1 D1 B 11 x x 8 8 7,3 M 8 1 1,8 M 18 D B 11 x 3 x 8 3 1 3,3 M 8 1 1,8 M 18 E1 B 1 x 3 x 3 1 3,3 M8 3 1 9,3 M8 F1 B 1 x 3 x 3 1 3,3 M8 13 18, M8 G1 B 1 x 3 x 3 1 3,3 M1 13 18 9, M1 N.B.: Non-ATEX version. K1 PUMP-SIDE HALF COUPLING DIMENSIONS (mm) t 1 +. s 1 q 1 u d H7 l b js9 K MOTOR-SIDE HALF COUPLING shf-giunto-elastico-en_c_td 9

SPACER COUPLING DIMENSIONS REF. DENOMINATION SIXE x l x d 1 x d l +1 +. t s q AS H 8-1 x x 19 1 3 8 7,3 M 19 19 1,8 M 1 A3S H 8-1 x x 1 3 8 7,3 M 19 8 7,3 M 1 B1S H 8-1 x x 8 1 3 8 7,3 M 19 8 8 31,3 M 1 C1S H 9-1 x x 38 1 3 8 7,3 M 38 1 1,3 M CS H 9-1 x x 1 3 8 7,3 M 1,3 M D1S H 11-1 x x 8 1 8 7,3 M 8 1 1,8 M DS H 11-1 x 3 x 8 1 3 1 3,3 M 8 1 1,8 M E1S H 1-1 x 3 x 1 3 1 3,3 M8 3 1 9,3 M8 F1S H 1-1 x 3 x 1 3 1 3,3 M8 13 18, M8 3 G1S H 1-1 x 3 x 1 3 1 3,3 M1 13 7 18 9, M1 3 N.B.: Non-ATEX version. K1 PUMP-SIDE HALF COUPLING d 1 H7 l 1 b 1 js9 DIMENSIONS (mm) K MOTOR-SIDE HALF COUPLING t 1 +. s 1 q 1 u d H7 l b js9 sh-giunto-elastico-con-sp-en_c_td 9

(DIMENSIONS OF ROUND THREADED COUNTERFLANGES ACCORDING TO EN 19-1) DIMENSIONS (mm) HOLES DN ø C ø A B ø D H ø F N PN Rp 1 8 1 11 1 1 1 3 Rp 1¼ 1 13 1 1 18 1 Rp 1½ 11 1 1 19 18 1 Rp 1 1 1 18 1 Rp ½ 1 1 18 3 18 1 8 Rp 3 1 17 7 18 8 1 1 Rp 18 18 31 18 8 1 sh-ctf-tonde-f-en_b_td ESH SERIES (DIMENSIONS OF ROUND WELD COUNTERFLANGES ACCORDING TO EN 19-1) DIMENSIONS (mm) HOLES DN ø C ø A B ø D ø F N PN 77 1 18 18 18 1 8 9 1 18 8 1 1 11, 18 18 8 1 sh-ctf-tonde-s-en_b_td 9

SHIM FOR MOTOR FEET DENOMINATION b x h x l DIMENSIONS (mm) SHIM FOR PUMP FEET (ESHF) DIMENSIONS (mm) HOLES DENOMINATION a l 1 l c N ø s d 1 x h d 3 1 17 1-1, 1 1 1 1 1 1 1 1 3 1 1 1 1 1 1 1 1 3 1 89 1 1 18 17 1-1 1 18 17 1-1 7 1 3 1 1 1 1 3 1 8 1 18 17 1-1 9 1 8 1 1 178 3 1 1 1 1 1 178 3 1 1 3 1 3 1 8 1 3 3 1 3 1 78 1 1 3 7 311 39 9 3 8 1 88 1 sp-mot-shs-shf-en_d_td DESIGNATION b x h x m 1 DIMENSIONS (mm) a m ø s t 1 1 11 1 1, 1 11 1 1, 1 11 1 1, 3 1 11 1 1, 7 1 1 9 1 37, 8 1 1 1 18, 8 1 1 18, 8 3 1 1 18, sp-pompa-shf-en_b_td 97

98

REPORTS AND DECLARATIONS 99

REPORTS AND DECLARATIONS i) Test reports a) Factory Test Report (not available for all pump types; contact Customer Service in advance) - Test report compiled at the end of the assembly line, including flow-head performance test (ISO 99:1 Grade 3B) and tightness test. b) Audit Test Report - Test report for electric pumps compiled in the test room, comprising flow-head-pump input-pump efficiency performance test (ISO 99:1 Grade 3B) c) NPSH Test Report - Test report for electric pumps compiled in the test room, comprising flow-npsh performance test (ISO 99:1 Grade 3B) d) Noise Test Report - Report indicating sound pressure and power measurements (EN ISO 31, EN ISO 113, EN ISO 871) e) Vibration Test Report (unavailable for submerged or submergible pumps) - Report indicating vibration measurements (ISO 181-1) ii) Declaration of product conformity with the technical requirements indicated in the order a) EN 1: - type.1 - does not include test results on supplied or similar products. b) EN 1: - type. - includes test results (materials certificates) on similar products. iii) Issue of a further EC Declaration of Conformity, - in addition to the one accompanying the product, it comprises references to European law and the main technical standards (e.g.: MD //EC, EMCD /18/EC, ErP 9/1/EC). N.B.: if the request is made after receipt of the product, communicate the code (name) and serial number (date + progressive number). iv) Manufacturer s declaration of conformity - relative to one of more types of products without indicating specific codes and serial numbers. v) Other certificates and/or documentation on request - subject to availability or feasibility. vi) Duplication of certificates and/or documentation on request - subject to availability or feasibility. 1

TECHNICAL APPENDIX 11

TYPICAL APPLICATIONS Water Purification: De-ionized water Water Treatment Filtration Commercial Pools Food and Drink: Food processing Bottle washing Citrus Processing Dish washing Brewing Sanitary ware Medical: Laser cooling Medical chillers Sanitary equipment Heating, Ventilating & Air Conditioning (HVAC) Condensate return Air scrubbers Water re-circulation Cooling towers Cooling systems Temperature control Chillaer Induction heating Heat exchangers Water heating Booster packages Graphics: Film washing Cooling of presses Plastics: Extrusion machines Temperature control Manufacture of polymers Waste Management: Waste treatment Pollution control Machine Tools: Degreasing Parts washing Machine centres Chemical treatment Heat treatment Vehicle Maintenance: Car washing Lorry of Truck wash Wheel or tyre washing Airplane washing Marine: Water on board ships Boat design (wave machines) Agriculture: Irrigation Greenhouses Poultry Washing Cotton humidifiers Computers: Washing of circuit boards Laundry: Commercial washing General Industry: Spray Booths Light chemical transfer Booster systems Fire fighting TECHNICAL APPENDIX 1

NPSH The minimum operating values that can be reached at the pump suction end are limited by the onset of cavitation. Cavitation is the formation of vapour-filled cavities within liquids where the pressure is locally reduced to a critical value, or where the local pressure is equal to, or just below the vapour pressure of the liquid. The vapour-filled cavities flow with the current and when they reach a higher pressure area the vapour contained in the cavities condenses. The cavities collide, generating pressure waves that are transmitted to the walls. These, being subjected to stress cycles, gradually become deformed and yield due to fatigue. This phenomenon, characterized by a metallic noise produced by the hammering on the pipe walls, is called incipient cavitation. The damage caused by cavitation may be magnified by electrochemical corrosion and a local rise in temperature due to the plastic deformation of the walls. The materials that offer the highest resistance to heat and corrosion are alloy steels, especially austenitic steel. The conditions that trigger cavitation may be assessed by calculating the total net suction head, referred to in technical literature with the acronym NPSH (Net Positive Suction Head). The NPSH represents the total energy (expressed in m.) of the liquid measured at suction under conditions of incipient cavitation, excluding the vapour pressure (expressed in m.) that the liquid has at the pump inlet. To find the static height hz at which to install the machine under safe conditions, the following formula must be verified: hp + hz (NPSHr +.) + hf + hpv where: hp is the absolute pressure applied to the free liquid surface in the suction tank, expressed in m. of liquid; hp is the quotient between the barometric pressure and the specific weight of the liquid. hz is the suction lift between the pump axis and the free liquid surface in the suction tank, expressed in m.; hz is negative when the liquid level is lower than the pump axis. hf is the flow resistance in the suction line and its accessories, such as: fittings, foot valve, gate valve, elbows, etc. hpv is the vapour pressure of the liquid at the operating temperature, expressed in m. of liquid. hpv is the quotient between the Pv vapour pressure and the liquid s specific weight., is the safety factor. 1 The maximum possible suction head for installation depends on the value of the atmospheric pressure (i.e. the elevation above sea level at which the pump is installed) and the temperature of the liquid. To help the user, with reference to water temperature ( C) and to the elevation above sea level, the following tables show the drop in hydraulic pressure head in relation to the elevation above sea level, and the suction loss in relation to temperature. Water temperature ( C) 8 9 11 1 Suction loss (m),,7,, 7, 1, 1, Elevation above sea level (m) 1 1 3 Suction loss (m), 1,1 1,,,7 3,3 Friction loss is shown in the tables Flow Resistance of this catalogue. To reduce it to a minimum, especially in cases of high suction head (over - m.) or within the operating limits with high flow rates, we recommend using a suction line having a larger diameter than that of the pump s suction port. It is always a good idea to position the pump as close as possible to the liquid to be pumped. Make the following calculation: Liquid: water at ~1 C γ = 1 kg/dm 3 Flow rate required: m 3 /h Head for required delivery: 7 m. Suction lift: 3, m. The selection is an 33SV3G7T pump whose NPSH required value is, at m 3 /h, of m. For water at 1 C hp = Pa / γ = 1,33m, hpv = Pv / γ =,17m (,171 bar) The Hf flow resistance in the suction line with foot valves is ~ 1, m. By substituting the parameters in formula 1 with the numeric values above, we have: 1,33 + (-3,) ( +,) + 1, +,17 from which we have:,8 > 3,9 The relation is therefore verified. 13 TECHNICAL APPENDIX

VAPOUR PRESSURE VAPOUR PRESSURE ps AND ρ DENSITY OF WATER TABLE t T ps ρ t T ps ρ t T ps ρ C K bar kg/dm 3 C K bar kg/dm 3 C K bar kg/dm 3 73,1,11,9998 38,1,171,987 1 393,1 1,98,99 1 7,1,7,9999 39,1,111,98 1 39,1,11,91 7,1,7,9999 7 33,1,17313,98 1 397,1,,939 3 7,1,78,9999 8 331,1,1817,98 1 399,1,3933,9379 77,1,813 1, 9 33,1,191,9837 18 1,1,3,93 78,1,87 1, 333,1,199,983 13 3,1,713,93 79,1,93 1, 1 33,1,8,98 13,1,87,938 7 8,1,11,9999 33,1,18,981 13 7,1 3,1,9311 8 81,1,17,9999 3 33,1,8,981 13 9,1 3,3,99 9 8,1,117,9998 337,1,391,9811 138 11,1 3,1,97 1 83,1,17,9997 338,1,1,98 1 13,1 3,1,98 11 8,1,131,9997 339,1,1,9799 1 18,1,1,91 1 8,1,11,999 7 3,1,733,9793 1 8,1,33,911 13 8,1,197,999 8 31,1,8,9788 1 33,1,181,973 1 87,1,197,9993 9 3,1,98,978 1 38,1 7,8,9 1 88,1,17,999 7 33,1,311,9777 17 33,1 7,9,8973 1 89,1,1817,999 71 3,1,33,977 17 8,1 8,9,891 17 9,1,193,9988 7 3,1,339,97 18 3,1 1,7,889 18 91,1,,9987 73 3,1,33,97 18 8,1 11,33,881 19 9,1,19,998 7 37,1,39,973 19 3,1 1,1,87 93,1,337,9983 7 38,1,38,978 19 8,1 13,987,87 1 9,1,8,9981 7 39,1,19,971 73,1 1,,87 9,1,,9978 77 3,1,189,973 78,1 17,3,888 3 9,1,88,997 78 31,1,3,979 1 83,1 19,77,88 97,1,98,997 79 3,1,7,973 1 88,1 1,,87 98,1,31,9971 8 33,1,73,971 93,1 3,198,83 99,1,33,998 81 3,1,931,971 98,1,1,8339 7 3,1,3,99 8 3,1,133,97 3 3,1 7,97,873 8 31,1,3778,993 83 3,1,3,997 3 8,1 3,3,8 9 3,1,,99 8 37,1,7,991 13,1 33,78,813 3 33,1,1,997 8 38,1,78,98 18,1 3,3,8 31 3,1,91,99 8 39,1,11,978 3,1 39,77,799 3 3,1,73,991 87 3,1,9,971 8,1 3,,791 33 3,1,9,997 88 31,1,9,9 33,1,93,7839 3 37,1,318,99 89 3,1,79,98 38,1,877,779 3 38,1,,99 9 33,1,711,9 7 3,1,8,778 3 39,1,9,9937 91 3,1,781,9 7 8,1 9,9,793 37 31,1,7,9933 9 3,1,71,938 8 3,1,,7 38 311,1,,993 93 3,1,789,93 8 8,1 9,18,71 39 31,1,991,997 9 37,1,81,9 9 3,1 7,1,731 313,1,737,993 9 38,1,83,91 9 8,1 8,37,73 1 31,1,7777,9919 9 39,1,879,91 3 73,1 8,97,71 31,1,8198,991 97 37,1,99,9 3 78,1 9,1,717 3 31,1,939,9911 98 371,1,93,99 31 83,1 98,7,9 317,1,91,997 99 37,1,977,98 31 88,1 1,1,791 318,1,98,99 1 373,1 1,133,981 3 93,1 11,89,9 319,1,18,9898 1 37,1 1,878,97 3 98,1 1,,1 7 3,1,11,989 1 377,1 1,18,9 33 3,1 18,3, 8 31,1,111,9889 1 379,1 1,,937 3 13,1 1,,1 9 3,1,1173,988 18 381,1 1,339,9 3 3,1 1,3,73 33,1,133,988 11 383,1 1,37,97 3 33,1 18,7,7 1 3,1,191,987 11 38,1 1,31,991 37 3,1 1,,18 3,1,1313,9871 11 387,1 1,3,97 37,1 7,3 1,,31 3 3,1,193,98 11 389,1 1,7,9 37,1,1,98 118 391,1 1,88,9 G-at_npsh_b_sc TECHNICAL APPENDIX 1

TABLE OF FLOW RESISTANCE IN 1 m OF STRAIGHT CAST IRON PIPELINE (HAZEN-WILLIAMS FORMULA C=1) FLOW RATE NOMINAL DIAMETER in mm and inches m 3 /h l/min 1 3 8 1 1 1 17 3 3 1/" 3/" 1" 1 1/" 1 1/" 1/" 3" " " " 7" 8" 1" 1" 1" 1", 1 v,9,3,3,1,13 hr 1 3,9 1,33,,13 The hr values must be multiplied by:,9 1 v 1,,8,1,31,,71 for galvanized or painted steel pipes hr 33,9 8,3,8,8,9, for stainless steel or copper pipes 1, v 1,89 1,,8,1,7,17,7 for PVC or PE pipes hr 7,7 1,1,79 1,,9,1 1, v,3 1,33,8,,33,1 hr 87, 1, 7,,18,73, 1,8 3 v,83 1,9 1,,,, hr 1 3,1 1,1 3, 1,3,3,1 3 v 3,3 1,8 1,19,73,,3 hr 1, 13,, 1,37,, v,1 1,3,83,3,3, hr 1, 17,3,19 1,7,9,1 3 v, 1,7 1,,,, hr 77,,1 7,8,,89, 3, v 3,18, 1,,8,1,3 hr 18 3, 11, 3,71 1,,3, 7 v 3,7,38 1,,93,9,3 hr 1 8,7 1,,93 1,,,8 8 v,,7 1, 1,,8, hr 18,3 18,7,3,13,9, 9 1 v v 3, 3, 1,87,7 1,19 1,33,7,8,,,3,33 hr hr 77, 9,1 3,3 8,3 7,8 9,, 3,,7,9,7,33 7, 1 v,,9 1, 1,,3,1 hr 1,8 1,,8 1,3,9 9 1 v 3,11 1,99 1,7,7,,3 hr 9,9,,8 1,9,9,3 1, 17 v 3,3,3 1,9,88,8,37 hr 79,7,9 9,7,3,9,31 1 v,1, 1,7 1,1,, hr 1 3, 11, 3,3 1,18, 1 18 3 v v,18 3,98 3,3,,1 1,1 1, 1,,83,,3,1,3 hr hr 1 7,8,, 17,,8,89,9 1,78,8,,8, 3 3 v v v,31,3,1 3,, 3,,1,1 1,99 1,33 1, 1,7,8 1,,8,,8,7,38,7, hr hr hr 1 187 88, 1,8 3,,7 11, 17, 8,98,,1 3,3 1,3,1 1,,8,73,,,3, 7 v,9 3,,3 1,9,9,,9 hr 118 3,8 11,9,3 1,3,, 8 8 9 v v,79 7,,,,,99 1,7 1,91 1,9 1,,7,8,, hr hr 11 188,,3 1,3 19,,1,1 1,7,1,7,89,3, 1 v,3 3,3,1 1,3,9,9,3 hr 3, 3,1 7,79,3 1,8,1,7 7 1 v,8,1, 1,7 1,18,87, hr 9, 3,9 11,8 3,97 1,3,77, 9 1 v 7,,98 3,18, 1, 1,,8 hr 13 8,9 1,,7,9 1,8, 1 17 v 8,79,81 3,7,38 1, 1,1,93 hr 179,1 1,9 7, 3, 1,,7 1 v,3,,7 1,89 1,39 1,,8 hr 83,3 8,1 9,8 3,9 1,8,9,3 1 v 8,9,31 3,,3 1,73 1,33,8 hr 1, 1,3,89,78 1,,9 18 3 v,37,8,83,8 1,9 1,,71 hr 9,,1 8, 3,9,3,9,8 1 3 v 7,3,7 3,3,3 1,8 1,19,83 hr 79,1,7 11,,18,71,91,38 v 8,9, 3,77,77,1 1,3,9 hr 11 3, 1,1, 3, 1,17,8 3 v,79,7 3,7, 1,7 1,18 hr 1, 1, 1,,3 1,77,73 3 v 8,1,,1 3,18, 1, hr 7,3 9,8 1,1 7,33,7 1, 7 v,1,8 3,7,38 1, 1,1 hr 39, 18,7 9,7 3,9 1,3, 8 8 9 v v 7, 8,9,,,,78,7 3, 1,89,1 1,39 1, 1,19 hr hr,7 3, 3,9 9,8 1,9 1,,1, 1,73,1,8 1,,3 1 G-at-pct-en_a_th v,93,31 3,,3 1,73 1,33 hr 3, 18,9,3, 1,, hr = flow resistance for 1 m of straight pipeline (m) V = water speed (m/s) 1 TECHNICAL APPENDIX

FLOW RESISTANCE TABLE OF FLOW RESISTANCE IN BENDS, VALVES AND GATES The flow resistance is calculated using the equivalent pipeline length method according to the table below: ACCESSORY TYPE 3 8 1 1 1 3 Equivalent pipeline length (m) bend,,,,,,,9 1,1 1, 1,9,,8 9 bend,,,9 1,1 1,3 1,,1, 3, 3,9,7,8 9 smooth bend,,,,,9 1,1 1,3 1,7 1,9,8 3, 3,9 Union tee or cross 1,1 1,3 1,7,1, 3,,3,3, 7, 1,7 1,8 Gate - - -,,,,,,,9 1,1 1,3 Non return valve 1,1 1, 1,9, 3, 3,,7,9 7, 9, 11,8 13,9 DN G-a-pcv-en_a_th The table is valid for the Hazen Williams coefficient C=1 (cast iron pipework); for steel pipework, multiply the values by 1,1; for stainless steel, copper and coated cast iron pipework, multiply the values by 1,8; When the equivalent pipeline length has been determined, the flow resistance is obtained from the table of flow resistance. The values given are guideline values which are bound to vary slightly according to the model, especially for gate valves and non-return valves, for which it is a good idea to check the values supplied by manufacturers. TECHNICAL APPENDIX 1

VOLUMETRIC CAPACITY Litres Cubic metres Cubic feet Cubic feet Imperial gallon U.S. gallon per minute per hour per hour per minute per minute per minute l/min m 3 /h ft 3 /h ft 3 /min Imp. gal/min US gal/min 1,,,1189,33,, 1,7 1, 3,317,88 3,,9,719,83 1,,17,138,17 8,318 1,99, 1,,88 7,8,1,78 9,3,1 1, 1,9 3,78,71 8,8,1337,837 1, PRESSURE AND HEAD Newton per kilo Pascal bar Pound force per Metre Millimetre of square metre square inch of water mercury N/m kpa bar psi m H O mm Hg 1,,1 1 x 1-1, x 1-1, x 1 -,7 1, 1,,1,1,1 7, 1 x 1 1, 1, 1,38 1,197 7,38 89,77,898,89 1,,731 1,711 9 8, 9,87,981 1,3 1, 73,1 133,3,1333,13,193,13 1, LENGTH Millimetre Centimetre Metre Inch Foot Yard VOLUME mm cm m in ft yd 1,,1,1,39,33,11 1, 1,,1,3937,38,19 1, 1, 1, 39,371 3,88 1,93,,, 1,,833,78 3,8 3,8,38 1, 1,,3333 91, 91,,91 3, 3, 1, Cubic metre Litre Millilitre Imperial gallon U.S. gallon Cubic foot m 3 L ml imp. gal. US gal. ft 3 1, 1, 1 x 1 19,99,17 3,317,1 1, 1,,,,33 1 x 1 -,1 1,, x 1 -, x 1-3,3 x 1 -,,1,87 1, 1,9,1,38 3,78 3 78,1,837 1,,1337,83 8,318 8 31,8,88 7,8 1, TEMPERATURE Water Kelvin Celsius Fahrenheit K C F icing 73,1, 3, boiling 373,1 1, 1, F = C 9 + 3 C = ( F 3) 9 G-at_pp-en_b_sc 17 TECHNICAL APPENDIX

FURTHER PRODUCT SELECTION AND DOCUMENTATION Xylect TM Xylect TM is pump solution selection software with an extensive online database of product information across the entire Lowara range of pumps and related products, with multiple search options and helpful project management facilities. The system holds up-to-date product information on thousands of products and accessories. The possibility to search by applications and the detailed information output given makes it easy to make the optimal selection without having detailed knowledge about the Lowara products. The search can be made by: Application Product type Duty point Xylect TM gives a detailed output: List with search results Performance curves (flow, head, power, efficiency, NPSH) Motor data Dimensional drawings Options Data sheet printouts Document downloads incl dxf files The search by application guides users not familiar with the product range to the right choice. TECHNICAL APPENDIX 18

FURTHER PRODUCT SELECTION AND DOCUMENTATION Xylect TM The detailed output makes it easy to select the optimal pump from the given alternatives. The best way to work with Xylect TM is to create a personal account. This makes it possible to: Set own standard units Create and save projects Share projects with other Xylect TM users Every user have a My Xylect space, where all projects are saved. For more information about Xylect TM please contact our sales network or visit www.xylect.com. Dimensional drawings appear on the screen and can be downloaded in dxf format. 19 TECHNICAL APPENDIX