SS/SSD 7B (150 × 125) Custom Pumps
EBARA SS/SSD 7B pump is Shell centerline support, heavy workstation design structure, 150 × 125 caliber custom pump, Flow rates up to 720 m³/h and 2500 m,Flexible design, suitable for a wide range of media. EBARA SS/SSD 7B Custom Pumps All parts are interchangeable to the greatest extent possible.
In the detailed model name, SS/SSD indicates the model, 7B stands for Stages, 150 × 125 indicates the inlet and outlet diameters.
As part of EMAC, PumpMac provides abundant premium pump-driven power pack options, WPT PTO, Advance gearbox and pump head, as well as customized water pump set. We also have a set of NFPA20 standard engine power pack accessories including air intake shut-off valve, DC contactor, engine control panel, jacket water heater etc.
We provide full life cycle services for all customers, from design to power system supply, from installation to commissioning, from after-sales service training to spare parts supply, from trouble shooting to overhaul technical support.
Advantages of SS/SSD 7B (150 × 125) Custom Pumps
Shell centerline support, heavy work position design.
High efficiency and high reliability.
Flexible design, suitable for a wide range of media.
All parts are interchangeable to the greatest extent possible.
Low NPSH.
Technical Specifications
| flow: | 720 m³/h,2500 m |
| Lift: | 23.5 MPa |
| Outlet pressure (gauge pressure): | 35.3 MPa |
| Hydrostatic test pressure: | 2950 RPM(50 Hz) |
| Standard speed: | 3550 RPM(60 Hz) |
| Maximum permissible speed: | 7000 RPM/7000 min¹ |
| turn around: | From the driving end, the impeller rotates clockwise |
| temperature range: | 250 °C(480 °F) |
| Impeller type: | Closed |
| Import and export method (standard structure): | Ejection-Ejection |
| Flange Standard: | ASME or other standards |
| Shaft seal type: | Mechanical seal or packing seal |
Water Pump Model | Water Pump Diameter | Motor Poles | Synchronous Speed | Motor Power | Frequency |
| SS6 | 50mm × 40mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 50mm × 40mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 50mm × 40mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 50mm × 40mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 50mm × 40mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 50mm × 40mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 50mm × 40mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 50mm × 40mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 50mm × 40mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS5 | 65mm × 50mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 65mm × 50mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 65mm × 50mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 65mm × 50mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 65mm × 50mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 65mm × 50mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 65mm × 50mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 65mm × 50mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 65mm × 50mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 65mm × 50mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS4 | 80mm × 65mm | 2 | 2950min-1 | 4 kW | 50 hz |
| SS5 | 80mm × 65mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 80mm × 65mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 80mm × 65mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 80mm × 65mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 80mm × 65mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 80mm × 65mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 80mm × 65mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 80mm × 65mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 80mm × 65mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 80mm × 65mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS4 | 100mm × 80mm | 2 | 2950min-1 | 4 kW | 50 hz |
| SS5 | 100mm × 80mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 100mm × 80mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 100mm × 80mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 100mm × 80mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 100mm × 80mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 100mm × 80mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 100mm × 80mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 100mm × 80mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 100mm × 80mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 100mm × 80mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS6 | 125mm × 100mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 125mm × 100mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 125mm × 100mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 125mm × 100mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 125mm × 100mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 125mm × 100mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 125mm × 100mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 125mm × 100mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 125mm × 100mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS5 | 150mm × 125(A)mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 150mm × 125(A)mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 150mm × 125(A)mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 150mm × 125(A)mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 150mm × 125(A)mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 150mm × 125(A)mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 150mm × 125(A)mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 150mm × 125(A)mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 150mm × 125(A)mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 150mm × 125(A)mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS5 | 150mm × 125(A)mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 150mm × 125(B)mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 150mm × 125(B)mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 150mm × 125(B)mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 150mm × 125(B)mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 150mm × 125(B)mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 150mm × 125(B)mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS12 | 150mm × 125(B)mm | 2 | 2950min-1 | 12 kW | 50 hz |
| SS13 | 150mm × 125(B)mm | 2 | 2950min-1 | 13 kW | 50 hz |
| SS14 | 150mm × 125(B)mm | 2 | 2950min-1 | 14 kW | 50 hz |
| SS4 | 200mm × 150(A)mm | 2 | 2950min-1 | 4 kW | 50 hz |
| SS5 | 200mm × 150(A)mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 200mm × 150(A)mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 200mm × 150(A)mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 200mm × 150(A)mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 200mm × 150(A)mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 200mm × 150(A)mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 200mm × 150(A)mm | 2 | 2950min-1 | 11 kW | 50 hz |
| SS5 | 200mm × 150(B)mm | 2 | 2950min-1 | 5 kW | 50 hz |
| SS6 | 200mm × 150(B)mm | 2 | 2950min-1 | 6 kW | 50 hz |
| SS7 | 200mm × 150(B)mm | 2 | 2950min-1 | 7 kW | 50 hz |
| SS8 | 200mm × 150(B)mm | 2 | 2950min-1 | 8 kW | 50 hz |
| SS9 | 200mm × 150(B)mm | 2 | 2950min-1 | 9 kW | 50 hz |
| SS10 | 200mm × 150(B)mm | 2 | 2950min-1 | 10 kW | 50 hz |
| SS11 | 200mm × 150(B)mm | 2 | 2950min-1 | 11 kW | 50 hz |
| ——END—— | |||||
| Serial number | Notes |
| ① | “The impeller guide vane and pump casing form the main flow passage which determines the hydraulic and cavitation performance of the pump. In order to meet the requirements of various industries EBARA has developed a series of products. The application of different hydraulic models for different parameters can achieve the performance optimization of the operating parameters. In addition the precision processing of impellers guide vanes etc. ensures efficient operation and reduces operating costs.” |
| ② | “The dynamic and static balance requirements of the rotor the unique axial force balance system design and the central support structure of the shell ensure that the pump can operate stably and reliably under high temperature and high pressure conditions.” |
| ③ | “According to customer parameters and specific requirements radial bearings can be roller bearings or sliding bearings. The lubricating oil in the optimized bearing housing is generally air-cooled. Water-cooling structure can also be selected as required.” |
| ④ | “The pump impeller is arranged in one direction and needs to be equipped with a balancing device. According to the pump parameters the device can adopt a balancing drum or a balancing disc structure. The residual axial force is borne by the thrust bearing which can adopt a splash-lubricated tapered roller bearing or a forced-lubricated tilting pad bearing that can withstand thrust in two directions.” |
Safety Instructions and Preventive Maintenance Guide
Requirements for use
Pumps play a significant role in a variety of industries and applications, ensuring the smooth movement of liquids and gases. However, in order to maintain top performance and safety, it is essential to adhere to routine maintenance procedures and safety recommendations. This guide aims at providing the detailed information about pump safety and preventive maintenance.
Safety Instructions
1. Read the Manual
Before using EBara pumps, read and understand the handbook thoroughly. Make sure you understand the pump’s specifications, capabilities, and safety precautions.
2. Proper Installation
Ensure the pump is put appropriately according to the guidelines. Improper installation can cause operating inefficiencies and safety issues.
3. Ventilation
Operate pumps in well-ventilated areas to prevent the buildup of potentially harmful gases or vapors. If working in confined spaces, use proper ventilation equipment.
4. Emergency Shutdown Procedures
Familiarize yourself with emergency shutdown procedures in case of malfunction, leakage, or any other hazardous situation. Ensure all personnel know how to operate emergency shutdown mechanisms.
5. Regular Inspections
Conduct routine inspections of the pump and its components for signs of wear, damage, or leaks. Address any issues promptly to prevent accidents or system failures.
6. Chemical Compatibility
If handling hazardous chemicals, ensure the pump materials are compatible with the fluid being pumped or refer our chemical compatibility chart for more information. Incompatible materials can lead to corrosion, leaks, or chemical reactions.
Preventive Maintenance
1. Regular Lubrication
Keep bearings, seals, and other moving parts properly lubricated. Insufficient lubrication can lead to premature wear and breakdowns.
2. Inspect Seals and Gaskets
Check seals and gaskets for wear, damage, or leaks regularly. Replace any worn or damaged seals to prevent fluid leakage and maintain pump efficiency.
3. Check Motor Alignment
Ensure the pump motor is properly aligned with the pump shaft to prevent excessive wear on bearings and seals. Misalignment can lead to premature failure and costly repairs.
4. Replace Worn Parts
Keep an inventory of spare parts and replace worn or damaged components as needed. Regularly check wear parts such as impellers, seals, and bearings for signs of deterioration.
5. Schedule Maintenance
Develop a preventive maintenance schedule based on manufacturer recommendations and operating conditions. Regular maintenance helps prevent unexpected breakdowns and extends the life of the pump.
6. Document Maintenance Records
Keep detailed records of all maintenance activities, including inspections, repairs, and replacements. This information helps track the pump’s performance over time and identify any recurring issues.
By following these safety instructions and preventive maintenance practices, you can ensure the safe operation and longevity of your pumps while minimizing the risk of accidents or downtime. Remember, prioritizing safety and proactive maintenance is key to maximizing pump efficiency and reliability.
Note: All Above Data are Just for Reference, All Data Might Change Without Notices or Updates, Please Contact Our Sales Team to Confirm All Details Via WhatsApp or Email.
Engine Sale Manual
Installation Drawing
Installation Manual
Operation Manual
Parts Catalogue
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