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ProMinent Evolution E1Sa Operating Instructions Manual
ProMinent Evolution E1Sa Operating Instructions Manual

ProMinent Evolution E1Sa Operating Instructions Manual

Metering pump
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Operating instructions
Metering pump
Evolution E1Sa / E2Sa
These operating instructions form part of combined documentation and, as such, are only valid if used in conjunction with
the combined documentation.
Target group: trained, qualified personnel, unless otherwise required.
Please carefully read these operating instructions before use. · Do not discard.
The operator shall be liable for any damage caused by installation or operating errors.
The latest version of the operating instructions are available on our homepage.
999638
A3500
Original operating instructions (2006/42/EC)
EN
Version: BA ORL 004 11/24 EN

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Summary of Contents for ProMinent Evolution E1Sa

  • Page 1 Operating instructions Metering pump Evolution E1Sa / E2Sa A3500 These operating instructions form part of combined documentation and, as such, are only valid if used in conjunction with the combined documentation. Target group: trained, qualified personnel, unless otherwise required. Please carefully read these operating instructions before use. · Do not discard.
  • Page 2 Supplemental directives General non-discriminatory approach In order to make it easier to read, this document uses the male form in grammatical structures but with an implied neutral sense. The document is always aimed equally at women, men and gender-neutral persons. We kindly ask readers for their understanding in this simplification of the text.
  • Page 3 Table of contents Table of contents Function................... 6 1.1 Functional description............. 6 1.2 Field of application..............6 1.3 Accessories................6 1.4 Overview of equipment............7 1.5 Liquid end................8 1.6 Diaphragm monitor..............9 1.7 Nameplate................10 1.7.1 Nameplate data..............10 1.7.2 ATEX nameplate data............
  • Page 4 Table of contents 9.3.1 A diaphragm rupture can remain unnoticed....... 43 9.3.2 Drain the hydraulic oil from the hydraulic end....43 9.3.3 Replacing the diaphragm........... 44 9.3.4 Tightening torque for screws..........45 9.3.5 Filling hydraulic oil into the hydraulic end/drive unit... 45 Maintenance..................
  • Page 5 Table of contents 15.2 Maintenance kits..............75 Declaration of Conformity.............. 78 16.1 Declaration of Conformity for E1Sa........78 16.2 Declaration of Conformity for E2Sa........78 ATEX Declaration of Conformity............ 80 17.1 ATEX Declaration of Conformity for E1Sa......80 17.2 ATEX Declaration of Conformity for E2Sa......81 Index....................
  • Page 6 Function Function 1.1 Functional description The pump is an oscillating-action process metering pump with a PTFE two-layer safety diaphragm. An electric motor drives the pump. The drive unit generates the oscillating force-stroke needed for the displacement process from the rotational movement of the motor. The displacement body driven by the drive unit converts the force-stroke movement into hydraulic energy.
  • Page 7 Function 1.4 Overview of equipment This pump consists of the following main assemblies: A3526 Fig. 1: Overview of the main assemblies Evolution 1 S / Evolution 2 S (abbreviated to Evo1 S / Multiple pump, connection kit Evo2 S) 10 Base Motor 11 Lubrication oil Motor base...
  • Page 8 Function 1.5 Liquid end A3841 Fig. 2: Liquid end of the PTFE multi-layer diaphragm (1) The heart of the liquid end is a PTFE multi-layer diaphragm (1). The PTFE multi-layer diaphragm hermetically seals the delivery chamber of the dosing head and causes displacement in the dosing head at each pump stroke.
  • Page 9 Function 1.6 Diaphragm monitor A3839 Fig. 3: The diaphragm monitoring interface (1), shown here with the visual display screwed in The diaphragm monitor monitors the multi-layer diaphragm for leaks and faults. The central slot of the multi-layer diaphragm features a drainage net.
  • Page 10 Function 1.7 Nameplate 1.7.1 Nameplate data Type Identity code - see above Ser. No. Serial number p rtd Maximum pressure, as ordered XXXXXXXXXXX p max Maximum pressure Ser. Nr. p rtd Q rtd p test Maximum pressure in the test p max Q max p test...
  • Page 11 Function 1.8 Dimensional drawing 1.8.1 Dimensional drawing of E1SA and E2SA 1.8.1.1 Dimensional drawing with manual stroke adjustment Dimensional drawing with manual stroke adjustment Please use the dimensional drawing enclosed with the documentation for the dimensions for your specific pump. All dimensions are in mm.
  • Page 12 Function 1.8.1.2 Dimensional drawing with horizontal actuator bei festem Hub Triebwerk Fig. 8: Dimensional drawing of E1/2Sa Aris Ex with horizontal actuator...
  • Page 13 Function 1.8.1.3 Dimensional drawing with horizontal actuator bei festem Hub Triebwerk Fig. 9: Dimensional drawing of E1/2Sa AUMA with horizontal actuator...
  • Page 14 Function 1.8.1.4 Dimensional drawing with horizontal actuator bei festem Hub Triebwerk Fig. 10: Dimensional drawing of E1/2Sa Aris with horizontal actuator...
  • Page 15 Identity code Identity code 2.1 Explanation of the ATEX label Explanation of the pump’s ATEX label in accordance with Directive 2014/34/EU / Standards EN ISO 80079-36, -37 Unit group No mines or associated underground systems, which can be endangered by firedamp - Unit for use in other areas at risk from explosion Other parameters 3G Ex h...
  • Page 16 Identity code 2.2 E1SA identity code Tab. 2: E1Sa Drive type Simplex (vertical) Drive (without liquid end) Piston Piston Ø6 Piston Ø8 Piston Ø10 Piston Ø13 Piston Ø15 Piston Ø17 Piston Ø19 Piston Ø22 Piston Ø30 Stroke rate 50 Hz operation 60 Hz operation 93 strokes/min.
  • Page 17 Identity code Ball valve Double ball valve Drive (without liquid end) Diaphragm monitor Without diaphragm monitor Visual display Contact manometer Electrical pressure switch Drive (without liquid end) Hydraulic connector Standard DIN flange ANSI flange NPT connector Drive (without liquid end) Electrical connection 3-phase, 230/400 V, 50/60 Hz 3-phase, 230/400 V, 50/60 Hz, with PTC...
  • Page 18 Identity code C3 standard textured paint - RAL2003 C3 standard gloss paint - RAL2003 C4 Outdoor - RAL2003 C5 Offshore - RAL2003 Drive without paintwork but with rust protection Tests Standard quality inspection Performance test including 3.1 certificate As S1 + 3.1 material certificate As S2 + 3.1 material certificate API complete test including 3.1 material cer‐...
  • Page 19 Identity code 2.3 E2Sa identity code Tab. 3: ES2a Drive type Simplex (vertical) Drive (without liquid end) Piston Piston Ø10 Piston Ø13 Piston Ø15 Piston Ø17 Piston Ø19 Piston Ø22 Piston Ø30 Stroke rate 50 Hz operation 60 Hz operation 93 strokes/min.
  • Page 20 Identity code Drive (without liquid end) Diaphragm monitor Without diaphragm monitor Visual display Contact manometer Electrical pressure switch Drive (without liquid end) Hydraulic connector Standard DIN flange ANSI flange NPT connector Drive (without liquid end) Electrical connection 3-phase, 230/400 V, 50 Hz, 0.75 kW 3-phase, 230/400 V, 50/60 Hz, 0.75 kW with PTC 3-phase, 230/400 V, 50 Hz, 0.75 kW (EXDE) T4 3-phase, 265/460 V, 60 Hz, 0.75 kW (EXDE) T4...
  • Page 21 Identity code C3 standard textured paint - RAL2003 C3 standard gloss paint - RAL2003 C4 Outdoor - RAL2003 C5 Offshore - RAL2003 Drive without paintwork but with rust protection Tests Standard quality inspection Performance test including 3.1 certificate As S1 + 3.1 material certificate As S2 + 3.1 material certificate API complete test including 3.1 material certificate...
  • Page 22 Safety chapter Safety chapter 3.1 Labelling of Warning Information Introduction These operating instructions provide information on the technical data and functions of the product. These operating instructions provide detailed warning information and are provided as clear step-by-step instructions. The warning information and notes are categorised according to the fol‐ lowing scheme.
  • Page 23 Safety chapter 3.2 User qualification WARNING! Danger of injury with inadequately qualified personnel The operator of the system / equipment is responsible for ensuring that the qualifications are fulfilled. If inadequately qualified personnel work on the unit or loiter in the hazard zone of the unit, this could result in dangers that could cause serious injuries and material damage.
  • Page 24 We recommend the installation of a protective canopy. Observe the general limitations with regard to viscosity limits, chem‐ ical resistance and density - see also the ProMinent Resistance List, product catalogue or at www.prominent.com. Only suitable pumps may be used in areas at risk from explosion.
  • Page 25 – Take into account the resistance of the wetted mate‐ rials and the ProMinent Resistance List when selecting the feed chemical - see the ProMinent Product Catalogue or visit ProMinent. INFORMATION: Refer to the documentation for the bought-in parts. Installation height The standard version is intended for installation up to a height of 1,000 m above sea level.
  • Page 26 Safety chapter WARNING! The inside of the dosing head needs to be constantly filled with medium in normal mode, and the start-up and run-down processes have to be designed in such a way by the operator so that no explosive mixture is produced inside the dosing head.
  • Page 27 Storage and transport Storage and transport User qualification: instructed user Ä Chapter 3.2 ‘User qualification’ on page 23 Use lifting points with suitable lifting means. Secure the pump to prevent it from falling. Oil can escape by improper storage or transportation. Only transport the unit with the sealing screw , and not the vent screw, fitted to the oil filler neck.
  • Page 28 Storage and transport A3533 Fig. 11: Strength class 8/8 M10 screws The feet and end caps are made of stainless steel and are unpainted. You can mount the feet as required and offset them by 90°. A3842 Fig. 12: Template...
  • Page 29 -20 °C ... +40 °C. Compare the dimensions on the dimensional drawing with those of the pump. If necessary: refer to the dimensional drawings on our website www.prominent.com for assistance. Assembly of the motor - with designs without motor WARNING! The following instructions relevant in areas at risk from explosion apply in areas at risk from explosion.
  • Page 30 Assembly Position the pump so that control elements, such as the stroke length adjustment knob, the indicating dial A or the oil inspection window, are easily accessible. Make sure that there is enough space to carry out an oil change (vent screws, oil drainage plugs, oil trough ...).
  • Page 31 Installation Installation 6.1 Pipework forces and torque The maximum loads at the pressure and suction connector are as follows: A3532 Fig. 16: Pipework force and torque coordinate system Tab. 5: Pipework forces and torque Screw connectors Flange connections Nominal width DN10 DN10 Fx [N]...
  • Page 32 Installation 6.2 Installation, hydraulic User qualification: trained qualified personnel Ä Chapter 3.2 ‘User qualification’ on page 23 WARNING! Danger from hazardous substances! Possible consequence: fatal or very serious injuries. When handling hazardous substances, please ensure that you have read the latest material safety data sheets provided by the manufacturer of the hazardous sub‐...
  • Page 33 The suction line must be a minimum of 1.5 times larger than the inner diameter of the valve, as it could other‐ wise result in the loss of performance by the pump or a pump fault. Check each individual case or contact ProMinent.
  • Page 34 Check each individual case or contact ProMinent. Tab. 6: Legend for hydraulic diagram Symbol Explanation...
  • Page 35 Installation 6.3 Installation, electrical User qualification: Electrical technician Ä Chapter 3.2 ‘User qualification’ on page 23 What requires electrical installation?: Motor External fan (identity code option) Frequency converter (identity code option) Stroke control drive (identity code option) Stroke actuator (identity code option) Diaphragm monitoring sensor (standard) Earthing wires (to be provided on site) Potential equalisation line (to be provided on site, prescribed in the...
  • Page 36 Installation Pump can be damaged The pump can be damaged if the motor drives the pump in the wrong direction. Note the correct direction of rotation indicated by the arrow on the fan cover when connecting the motor, as shown in Ä...
  • Page 37 Installation 6.3.1 Earthing drawing Simplex version (single head) E1/2Sa Pump Motor 6.4 Earthing / potential equalisation Note / comply with the following points: Electrical components must be properly earthed in accordance with the manufacturer's instructions. All pump assemblies must be earthed. Configure the cable cross-section for the most powerful electrical com‐...
  • Page 38 Installation A3534 Fig. 19: Earthing / potential equalisation The pump is fully earthed internally. It is the responsibility of the operator to connect the external earth terminal (1) on the diaphragm holder to the earthing system.
  • Page 39 Start up Start up User qualification: trained qualified personnel Ä Chapter 3.2 ‘User qualification’ on page 23 WARNING! Danger from hazardous substances! Possible consequence: fatal or very serious injuries. When handling hazardous substances, please ensure that you have read the latest material safety data sheets provided by the manufacturer of the hazardous sub‐...
  • Page 40 Start up Have all the loose parts supplied been fitted? Is the safety equipment correctly assembled and working properly? Is the electrical installation of the process pump correct and in accord‐ ance with local regulations? Is the supply voltage of the main power end, actuator, sensors etc. correct? Is the electrical installation (including potential equalisation and earthing) correctly installed and in accordance with local regulations?
  • Page 41 7.3 Calibrate the stroke control drive (optional) The stroke control drive is calibrated to the capacity ordered ex-factory. Please contact ProMinent if you wish the stroke control drive to be cali‐ brated to another capacity.
  • Page 42 Operation Operation User qualification: trained qualified personnel Ä Chapter 3.2 ‘User qualification’ on page 23 After prolonged operation, for instance at high ambient temperatures, hot feed chemicals, or severe pump load, areas of the pump may become hot enough to present a risk of combustion. The pump's stroke length can be changed when stationary and also when in operation.
  • Page 43 Diaphragm package Diaphragm package 9.1 Material versions There is a choice of 2 materials for the woven fabric between the dia‐ phragm layers: PET (polyethylene terephthalate) which can be used at temperatures of up to max. 120 °C PEEK (polyether ether ketone) which can be used at temperatures of up to max.
  • Page 44 Diaphragm package 9.3.3 Replacing the diaphragm A3851 Fig. 20: Diaphragm Depressurise the suction and pressure lines. Is the hydraulic oil drained? Unscrew the suction and pressure lines from the liquid end. Remove the head with the dosing head screws from the hydraulic end.
  • Page 45 Diaphragm package A3839 Fig. 21: The diaphragm monitoring interface (1), shown here with the visual display screwed in 9.3.4 Tightening torque for screws Piston Ø Dosing head material 1st stage 2nd stage 3rd stage 6 ... 8 mm S2, S3 15 Nm 30 Nm 10 ...
  • Page 46 Diaphragm package Screw the gearbox vent screw back in. Close the pressure relief valve. Check the pump for leak-tightness at maximum back pressure. After 1 day, check whether the oil drainage screw is still tight. Check the tightening torque of the dosing head screws again after 24 hours of operation.
  • Page 47 Maintenance Maintenance User qualification: trained and qualified personnel, unless otherwise stated Ä Chapter 3.2 ‘User qualification’ on page 23 WARNING! Danger from hazardous substances! Possible consequence: fatal or very serious injuries. When handling hazardous substances, please ensure that you have read the latest material safety data sheets provided by the manufacturer of the hazardous sub‐...
  • Page 48 Maintenance 10.1 Inspection We recommend inspecting the pump to ensure the fault-free operation of the pump. Check the pump installation for: Leaks, Abnormal noises or squeaking, Unusual temperatures, Unusual odours, Unusual vibrations, Other anomalies, Correct oil level. Daily, pump in operation: Diaphragm rupture warning system: no diaphragm rupture is dis‐...
  • Page 49 Maintenance Blocked suction line: Replace the PTFE diaphragm layers including woven fabric within 4 weeks. 10.2.2 Annually Oil: oil change including removal of deposits and accumulated water. General cleaning; remove all deposits and accumulated dirt. Blocked suction line: Replace the PTFE diaphragm layers including woven fabric within 4 weeks.
  • Page 50 Maintenance 10.3.2 Filling hydraulic oil into the hydraulic end/drive unit Vent screw Foot Cover Liquid end Oil level monitor Nameplate Housing with gear Stroke counter Fig. 24 Set the stroke adjustment dial to 100% and unscrew the pressure relief valve. Slowly pour hydraulic oil through the opening for the gearbox vent screw until the oil inspection window is 3/4 covered.
  • Page 51 Maintenance 10.5 Cleaning valves 10.5.1 Cleaning a double ball valve NOTICE! Damage to the valve Double ball valves cannot be dismantled and need to be completely replaced. Check in advance which valves are fitted in the pump. Fig. 25: Double ball valve DN3 / DN6 cartridge version 221 Spacer 222 Valve seat 223 Valve ball...
  • Page 52 Maintenance Vent valve Diaphragm holder Piston/socket Valve connector Injection valve Diaphragm package Diaphragm return spring 221 Valve housing 222 Valve seat 223 Ball 229 Sealing ring Fig. 26: Single ball valve DN10 Dismantling the valve Loosen the pressure line. Remove the discharge valve from the dosing head and rinse the discharge valve.
  • Page 53 Maintenance 10.5.3 Assembly of the single ball valve Fig. 27: Single ball valve DN10 221 Valve housing 222 Valve seat 223 Ball 229 Sealing ring When assembling, take note of the orientation of the valve seats (222). The valve seats (222) are used as a ball seat on the sharp- edged side.
  • Page 54 Maintenance 10.5.3.2 Suction-side installation of the single ball valve Insert the components one after the other into the valve opening of the dosing head. Insert 1 seal (229) Insert 1 valve seat (222), paying attention to the direction (chamfer facing the head). Place 1 seal (229) on the valve seat (222) Place 1 ball (223) on the valve seat (222) Place 1 valve housing (221) on the seal (229)
  • Page 55 Maintenance 10.7 Repairing the diaphragm monitoring sensor 10.7.1 Checking the visual display The diaphragm monitor features a PTFE multi-layer diaphragm with the EMF liquid end. The following options are available. Visual display B1316 Fig. 28: Visual display Regularly clean the display. 10.7.2 Checking the diaphragm monitoring sensor When changing the diaphragm, unscrew the diaphragm monitoring...
  • Page 56 Maintenance Replacing the separating diaphragm of the diaphragm monitoring sensor Disconnect the diaphragm monitoring sensor from the power supply. When changing the diaphragm, unscrew the diaphragm monitoring sensor from the dosing head. Grip the top part (2) of the diaphragm monitoring sensor. Hold the sensor body (5) in place with an open-ended spanner.
  • Page 57 Maintenance 10.7.3 ATEX version ATEX version Checking the diaphragm monitoring When changing the diaphragm, unscrew the diaphragm monitoring sensor sensor from the dosing head. Checking that the monitor does not indi‐ Using a blunt insulating probe (Ø 2 ... 3 mm, no sharp edges), press cate any damage to the diaphragm: into the channel of the diaphragm monitoring sensor.
  • Page 58 The operator must do everything possible to prevent a fire or explosion in the event of a diaphragm rupture and also with leaking valve connectors / leaking pipes. Here are a few useful ProMinent hints for safe installation of your pump: Example 1: Only operate the pump at most in ATEX Zone 1.
  • Page 59 Troubleshooting Troubleshooting 11.1 Mechanical faults Fault Remark Personnel Loud noises in the area of the drive Risk of ignition by sparking Technical personnel motor Risk of ignition from overheating Technical personnel Risk of ignition by sparking Technical personnel Loud noises in the area of the drive Risk of ignition by sparking Service motor...
  • Page 60 Troubleshooting 11.2 Hydraulic faults Fault Cause Remedy Remark Pump does not meter Shut-off valve on the pressure or Check and, if necessary, Diaphragm position con‐ suction side is closed open the shut-off valves trol or pressure relief valve triggers Suction pressure too low Increase the suction pres‐...
  • Page 61 Troubleshooting Fault Cause Remedy Remark Remove dirt, check that all Diaphragm position con‐ the valves are open, check trol triggers the design of the pipework Suction-side internal diameter is Larger suction line Cavitation may occur due too small (at least 1.5x internal to a suction line that is too valve width) small (too high a pressure...
  • Page 62 Troubleshooting Leakage at the inner clamping Replace the diaphragm points package, Securely tighten the clamping screw, Check the O-ring diaphragm mounting plate and replace if necessary, Screw the diaphragm package manually into the tie- rod. Suction-side internal diameter is Larger suction line Cavitation may occur due too small (at least 1.5x internal to a suction line that is too...
  • Page 63 Temporary decommissioning Temporary decommissioning WARNING! Danger from hazardous substances! Possible consequence: fatal or very serious injuries. When handling hazardous substances, please ensure that you have read the latest material safety data sheets provided by the manufacturer of the hazardous sub‐ stances.
  • Page 64 Temporary decommissioning Spread assembly paste on the threads of the vent valve before screwing in, as otherwise there is a risk of corrosion. Check the operation of the worm shaft seals, the push rod seals and the threaded shaft seal, and replace the seals if necessary.
  • Page 65 Decommissioning and disposal Decommissioning and disposal User qualification: trained and qualified personnel / elec‐ trical technician Ä Chapter 3.2 ‘User qualification’ on page 23 WARNING! Danger from hazardous substances! Possible consequence: fatal or very serious injuries. When handling hazardous substances, please ensure that you have read the latest material safety data sheets provided by the manufacturer of the hazardous sub‐...
  • Page 66 Technical data Technical data Always note the technical data on the nameplate, the pump data sheet supplied, and the other applicable documents provided. Their information has priority over the information given in this chapter. 14.1 Particle size NOTICE! Pressure drop in the suction line A blocked filter can lead to a high pressure drop in the suction line resulting in cavitation.
  • Page 67 Technical data Tab. 9: Technical data for E1SA 60 Hz Theo. Theoretical pump capacity in l/h at strokes/min (60 Hz) 1700 rpm Max. piston perm. Ø oper‐ ating pres‐ sure theo. theo. theo. theo. theo. theo. theo. real l/h real l/h real l/h real l/h real l/h...
  • Page 68 Technical data Tab. 11: Technical data for E2SA 60 Hz Theo. Theoretical pump capacity in l/h at strokes/min (60 Hz) 1700 rpm Max. piston Ø perm. oper‐ ating pressure 12.5 theo. l/h theo. l/h theo. l/h theo. l/h theo. l/h theo.
  • Page 69 Technical data 14.5 Ambient conditions The standard version of this pump is designed for an ambient temperature of -20 °C ... +40 °C. Special versions can be used for temperatures of up to +50 °C. The ATEX version of these pumps is designed for an ambient temperature of -20 °C ...
  • Page 70 Technical data 14.7.2.1 Contact sensor Seal Top part Separating diaphragm Plate Body The contact is an N/C. The contact is potential-free. Protective low voltage: For safety reasons, we recommend connecting to protective low voltage, e.g. in accordance with EN 60335-1 (SELV ). The poles of the cable can be connected as required.
  • Page 71 Technical data 14.7.2.2 NAMUR sensor, specified for areas at risk from explosion Seal Top part Separating diaphragm 3 a Spring seat Plate Body Spring 5 ... 25 V DC, in accordance with NAMUR and/or DIN 60947-5-6, poten‐ tial-free design. Install the sensor in accordance with the “Installation, electrical” section. Refer to its documentation.
  • Page 72 14.11 Filling volumes Tab. 14: Filling volume of E1Sa Mobilube 1 SHC 70W - 90, ProMinent part no. 1005823 Filling volume: approx. 2500 ml Tab. 15: Filling volume of E2Sa Mobilube 1 SHC 70W - 90, ProMinent part no. 1005823...
  • Page 73 Technical data 14.12 Motor data 14.12.1 Motor Tab. 16: E1SA Size Motor flange Identity code [MOT_E1Sa] Dm [mm] [Nm] [mm] Tab. 17: E1SA NEMA Size Motor flange Identity code [MOT_E1Sa] Dm [inch] [Nm] [inch] NEMA 4.5” (centring 0.625”/0.875” 56/143 ring) NEMA 4.5”...
  • Page 74 Technical data Tab. 19: E2SA NEMA Size Motor flange Identity code [MOT_E2Sa] Dm [inch] [Nm] [inch] NEMA 4.5” (centring 0.625”/0.875” 56/143 ring) NEMA 4.5” (centring 0.625”/0.875” 56/143 ring) Fig. 34: Motor flange 160...
  • Page 75 Spare parts and equipment Spare parts and equipment 15.1 General 15.1.1 Gear / hydraulic oil Tab. 20: Required volume of oil Name Litres [l] E1Sa E2Sa Tab. 21: Gear / hydraulic oil Name Volume Order no. Mobilube 1 SHC 75W-90 1006010 15.2 Maintenance kits...
  • Page 76 Spare parts and equipment Part number Description Piston E1Sa Piston E2Sa Quantity [mm] [mm] Text Screw connector; MA=90 Nm, torque- controlled tightening 1038943 Double ball valve DN6C 1.4404 / ceramic 1031502 Sealing ring D18/12x2 DN6 1.4404 Text Hex nut DIN 934 M12 E1Sa; MA=60 Nm, torque-controlled tightening Text MA= 8 Nm;...
  • Page 77 Spare parts and equipment Part number Description Piston E1Sa Piston E2Sa Quantity [mm] [mm] 1031533 Sealing ring D24/D20x1 DN10 1.4404 Text Hexagonal screw DIN 931 M 8x 60; MA=20 Nm, torque-controlled tight‐ ening Text MA= 8 Nm; vent valve DN2 Text Relief valve;...
  • Page 78 Tab. 26: Extract from the Declaration of Conformity Designation of the product: Hydraulic diaphragm metering pump ORLITA Evolution E1Sa Product type: E1Sa_ _ _ _ _ _ _ _ _ _ _ _ _ § $ _ _ _ _ _ _ _ _ _ §...
  • Page 79 Declaration of Conformity Harmonised standards applied, in EN ISO 12100:2010 particular: EN 809:1998 + A1:2009 + AC:2010 EN IEC 63000:2018 Date: 29/11/2023 Download the Declaration of Conformity at www.prominent.com.
  • Page 80 ATEX Declaration of Conformity for E1Sa Tab. 28: Extract from the EC Declaration of Conformity Designation of the Hydraulic diaphragm metering pump ORLITA Evolution E1Sa product: Product type: E1Sa_ _ _ _ _ _ _ _ _ _ _ _ _ § $ 0 % %_ _ _ _ _ _ §...
  • Page 81 ...§E03P..§F01P..§F02P..§F03P... II 3G Ex h IIC T4 Gc X for ...§G01P..§H01P... II 3G Ex h IIB T4 Gc X for ...§G02P..§G03P..§H02P..§H03P... X: max. media temperature 90 °C Date: 29/11/2023 Download the Declaration of Conformity at www.prominent.com.
  • Page 82 Index Index 1, 2, 3 ... Modified ....... . 71 More symbols .
  • Page 84 ProMinent GmbH Im Schuhmachergewann 5-11 69123 Heidelberg Germany Telephone: +49 6221 842-0 Fax: +49 6221 842-419 Email: info@prominent.com Internet: www.prominent.com 999639, 3, en_GB © 2024...

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