centrifugal pump schematic diagram|exploded view of centrifugal pump

2-Phase Separating Decanter cutMaster. For clear classification in chemical and mineral processing applications. The clarified liquid is discharged freely into a liquid catcher and flows off under gravity. CIP-compatability of the decanter can be assured.

Centrifugal pumps are widely used in various industries for transferring fluids and generating high discharge pressure. The schematic diagram shown here depicts a multistage between the bearing pump, which is specifically designed for applications requiring very high discharge pressure. Each stage of the pump is equipped with an impeller that works in series to increase the pressure of the fluid being pumped. This design ensures that the discharge of one stage becomes the suction of the next stage, allowing for efficient pressure boosting.

Learn about different types of centrifugal pumps with schematic and cross-section diagrams. See real-life pump drawings and 3D models of single stage, multistage, and double suction pumps. See more

This type of centrifugal pump is not suitable for high volume discharge applications, as its main focus is on generating significant pressure levels. The multistage between the bearing pump is commonly used in processes where the fluid needs to be pumped over long distances or to elevated locations. The pump's ability to increase pressure incrementally makes it ideal for applications such as boiler feedwater supply, high-pressure cleaning systems, and water distribution in tall buildings.

When examining the schematic diagram of a multistage between the bearing pump, it is important to understand the key components and their functions. The pump consists of multiple stages, each comprising an impeller, a diffuser, and a casing. The impeller is responsible for imparting kinetic energy to the fluid by rotating at high speeds. As the fluid enters the impeller, it is accelerated radially outward, creating a high-velocity flow.

The diffuser, located downstream of the impeller, is designed to convert the kinetic energy of the fluid into pressure energy. By gradually expanding the flow area, the diffuser reduces the velocity of the fluid while increasing its pressure. This process allows the pump to achieve the desired discharge pressure by efficiently converting kinetic energy into potential energy.

The image below shows the cut section of the single-stage pump with an open impeller design. This is the simplest diagram of the pump,

Decanter centrifuges are generally constructed with specific length to diameter ratios (L:D). .

centrifugal pump schematic diagram|exploded view of centrifugal pump