| Quantity: | |
|---|---|
| PDF Export | |
Equipped with a vortex impeller, offering superior anti-clogging capability.
Large clearance between impeller and casing allows pumping of high-concentration sewage and large solids.
Integrated motor and pump with IP68 protection for continuous submersible operation.
Suitable for municipal, industrial, and agricultural wastewater applications.
The vortex impeller submersible pump operates by creating a strong vortex inside the pump casing. Instead of directly impacting the liquid, the impeller induces a swirling motion that drives the fluid toward the outlet. Since the liquid makes minimal contact with the impeller, a wide and unobstructed flow channel is formed, allowing the pump to easily handle large solids, long fibers, and high-concentration sewage while minimizing the risk of clogging.
The vortex impeller sewage pump is widely used in:
Municipal drainage: Wastewater treatment plants, stormwater stations, and sewer lifting.
Industrial wastewater: Pulp and paper, chemical, textile, and food processing industries.
Agriculture and livestock: Manure treatment and irrigation drainage.
Construction sites: Dewatering of foundation pits and slurry pumping.
Domestic sewage: Residential wastewater lifting and basement drainage.
Inspect seals regularly: Mechanical seals are critical; check for wear and leakage.
Replace lubricating oil: Change motor chamber oil periodically for proper lubrication and cooling.
Clean impeller and casing: Prevent deposits that may reduce hydraulic efficiency.
Check cables and insulation: Ensure cables are intact and motor insulation is in good condition.
Avoid dry running and overload: Dry running damages seals; overload may burn the motor.
For long-term storage: Clean the pump, keep it dry, and store in a ventilated place.
| Q1: Why is the efficiency of vortex pumps lower than other pumps? |
A1 :The efficiency is slightly lower since the impeller has less direct impact on the liquid, but this trade-off provides excellent anti-clogging performance. |
| Q2: What size of particles can a swirl impeller pump pass through? |
A2: Depending on the model, it can typically pass solid particles up to 40–80% of the pump inlet diameter. |
| Q3: Can it run continuously? |
A3 : Yes, with IP68 protection, the pump is suitable for continuous submersible operation. |
| Q4: What media are suitable for conveying with a swirl impeller submersible pump? |
A4 : It is mainly suitable for sewage, wastewater, and slurry containing solids, fibers, and suspended matter. |
| Q5: What are the advantages of vortex pumps compared to single channel impeller pumps? |
| A5 : Vortex pumps provide stronger anti-clogging capability and can handle fibrous and bulky solids with minimal risk of blockage, though efficiency is slightly lower than single-channel pumps. |
| Q6: What are the installation methods for vortex pumps? |
A6 : Common installation methods include portable, dry pit installation, and auto-coupling installation. |
| Q7: How to extend the service life of a swirl submersible pump? |
| A7 : Regularly check mechanical seals, lubricating oil, and motor insulation; avoid prolonged overload operation. |
| Q8: Can a vortex pump transport high-temperature media? |
A8 : Standard models are suitable for media ≤40℃. For high-temperature sewage, customized high-temperature models are available. |
| Q9: Is the vortex impeller submersible pump energy-saving? |
| A9 : While its hydraulic efficiency is slightly lower, the pump offers overall energy savings due to superior reliability and reduced maintenance costs. |
| Q10: How to choose the appropriate model of vortex pump? |
A10: Selection should be based on fluid characteristics (particle size, concentration, temperature), required flow and head, and installation conditions. |
Equipped with a vortex impeller, offering superior anti-clogging capability.
Large clearance between impeller and casing allows pumping of high-concentration sewage and large solids.
Integrated motor and pump with IP68 protection for continuous submersible operation.
Suitable for municipal, industrial, and agricultural wastewater applications.
The vortex impeller submersible pump operates by creating a strong vortex inside the pump casing. Instead of directly impacting the liquid, the impeller induces a swirling motion that drives the fluid toward the outlet. Since the liquid makes minimal contact with the impeller, a wide and unobstructed flow channel is formed, allowing the pump to easily handle large solids, long fibers, and high-concentration sewage while minimizing the risk of clogging.
The vortex impeller sewage pump is widely used in:
Municipal drainage: Wastewater treatment plants, stormwater stations, and sewer lifting.
Industrial wastewater: Pulp and paper, chemical, textile, and food processing industries.
Agriculture and livestock: Manure treatment and irrigation drainage.
Construction sites: Dewatering of foundation pits and slurry pumping.
Domestic sewage: Residential wastewater lifting and basement drainage.
Inspect seals regularly: Mechanical seals are critical; check for wear and leakage.
Replace lubricating oil: Change motor chamber oil periodically for proper lubrication and cooling.
Clean impeller and casing: Prevent deposits that may reduce hydraulic efficiency.
Check cables and insulation: Ensure cables are intact and motor insulation is in good condition.
Avoid dry running and overload: Dry running damages seals; overload may burn the motor.
For long-term storage: Clean the pump, keep it dry, and store in a ventilated place.
| Q1: Why is the efficiency of vortex pumps lower than other pumps? |
A1 :The efficiency is slightly lower since the impeller has less direct impact on the liquid, but this trade-off provides excellent anti-clogging performance. |
| Q2: What size of particles can a swirl impeller pump pass through? |
A2: Depending on the model, it can typically pass solid particles up to 40–80% of the pump inlet diameter. |
| Q3: Can it run continuously? |
A3 : Yes, with IP68 protection, the pump is suitable for continuous submersible operation. |
| Q4: What media are suitable for conveying with a swirl impeller submersible pump? |
A4 : It is mainly suitable for sewage, wastewater, and slurry containing solids, fibers, and suspended matter. |
| Q5: What are the advantages of vortex pumps compared to single channel impeller pumps? |
| A5 : Vortex pumps provide stronger anti-clogging capability and can handle fibrous and bulky solids with minimal risk of blockage, though efficiency is slightly lower than single-channel pumps. |
| Q6: What are the installation methods for vortex pumps? |
A6 : Common installation methods include portable, dry pit installation, and auto-coupling installation. |
| Q7: How to extend the service life of a swirl submersible pump? |
| A7 : Regularly check mechanical seals, lubricating oil, and motor insulation; avoid prolonged overload operation. |
| Q8: Can a vortex pump transport high-temperature media? |
A8 : Standard models are suitable for media ≤40℃. For high-temperature sewage, customized high-temperature models are available. |
| Q9: Is the vortex impeller submersible pump energy-saving? |
| A9 : While its hydraulic efficiency is slightly lower, the pump offers overall energy savings due to superior reliability and reduced maintenance costs. |
| Q10: How to choose the appropriate model of vortex pump? |
A10: Selection should be based on fluid characteristics (particle size, concentration, temperature), required flow and head, and installation conditions. |