High-Pressure Submersible Slurry Pump
I. Structural Features
Single-stage, single-suction design
Featuring only a single impeller, liquid is drawn in from a single axial direction, and centrifugal force is generated by the impeller's rotation to deliver the water. This structure reduces hydraulic losses, improves efficiency, and is suitable for medium-lift requirements.
Compact Structure
The motor is directly connected to the pump body, allowing for submersible operation. No separate pump room is required, saving space and facilitating installation. The modular design facilitates component replacement and reduces maintenance costs.
A single-stage submersible pump integrates a motor and pump body, specifically designed for pumping water from shallow wells. Its operating principle is that the motor drives the shaft and impeller, generating centrifugal force that pumps water from the bottom of the well to the surface. The pump consists of four components: the motor, shaft, pump body, and impeller. During operation, the impeller rotates at high speed, causing centrifugal force to throw water from the center of the impeller to the edges. The water then flows out of the outlet after being decompressed in the diffusion chamber.
Typical Application Scenarios
Agriculture and Irrigation
Pumping groundwater or river water solves irrigation problems in arid areas and supports greenhouse water circulation.
Municipal and Domestic Water
Pumping water from deep wells or reservoirs to waterworks ensures water supply for residents; also used in rural drinking water projects.
Industrial
Cooling water circulation (power plants, chemical plants), process water (petroleum, pharmaceuticals), and wastewater treatment.
Mining and Construction
Mine drainage, tunnel construction drainage, and foundation pit dewatering.
Single-stage submersible pumps, with their high efficiency, convenience, and stability, are the preferred equipment for shallow well pumping, agricultural irrigation, and industrial water supply, particularly in resource-constrained or complex environments. However, their long shaft drive and maintenance costs require careful consideration. It is recommended to select a pump based on the specific scenario, focusing on energy efficiency and material compatibility.
