single stage vs multistage centrifugal pump|difference between centrifugal pump and multiphase

End suction pumps, also known as straight pumps, are a type of centrifugal pump design .

Centrifugal pumps are widely used in various industries to transport fluids by converting rotational kinetic energy into hydrodynamic energy. One important distinction in centrifugal pumps is between single stage and multistage pumps. Understanding the differences between these two types of pumps is crucial for selecting the most suitable option for specific applications.

A multistage pump is a type of centrifugal pumpthat pressurizes the fluid in multiple stages (two or more stages). Because this pump uses more than one stage, therefore, it is known as a multistage pump. It contains two or more chambers. Each compression stage contains guide vanes, a diffuser, and an

Single Stage Centrifugal Pump

A single stage centrifugal pump, as the name suggests, consists of only one impeller. This impeller is responsible for generating the centrifugal force needed to move the fluid through the pump. When the pump is in operation, the fluid enters the pump through the eye of the impeller and is then accelerated radially outward by the rotating impeller blades.

In a single stage centrifugal pump, the fluid is discharged at a higher velocity compared to its inlet velocity. This increase in velocity results in a corresponding decrease in pressure, as dictated by the principles of fluid dynamics. Single stage centrifugal pumps are commonly used for applications where moderate to low pressure is required.

Multistage Centrifugal Pump

On the other hand, a multistage centrifugal pump features multiple impellers arranged in series within the same pump casing. Each impeller is referred to as a stage, and the fluid passes through each stage sequentially, with each stage contributing to an increase in pressure.

The operation of a multistage centrifugal pump can be visualized as follows:

1. The fluid enters from the outside into the impeller eye of the first stage.

2. As the fluid strikes the impeller blades of the first stage, it gains kinetic energy and is directed towards the next stage.

3. The process is repeated for each subsequent stage, with the fluid experiencing additional pressure boosts at each stage.

4. Finally, the fluid is discharged from the last stage at a significantly higher pressure than the inlet pressure.

Multistage centrifugal pumps are preferred for applications that require high pressure output, such as boiler feedwater systems, reverse osmosis, and high-pressure cleaning systems. By utilizing multiple stages, these pumps can achieve the desired pressure without the need for excessively large impellers or motors.

Key Differences

1. **Pressure Output**: Single stage centrifugal pumps are suitable for applications where moderate pressure is sufficient, while multistage centrifugal pumps are designed for high-pressure applications.

2. **Efficiency**: Multistage pumps tend to be more efficient than single stage pumps when it comes to generating high pressures.

3. **Size and Power**: Multistage pumps are typically larger and require more power compared to single stage pumps due to the presence of multiple impellers.

As we discussed earlier that a multistage pump has multiple stages. It works in more than one stage. A multistage pump works in the following way: 1. Firstly, the fluid enters from the outside into the impeller eye of the 1st stage. 2. As the fluid strikes the impeller blades,

Centrifugal Pump Overview A brief overview of the centrifugal pump’s basic anatomy, and how a centrifugal pump works. Centrifugal Pump Types Learn the characteristics, advantages, and disadvantages of 8 of the most used cen-trifugal pump types Centrifugal Pump Terminology Definitions of a few terms about centrifugal pumps used in this book.

single stage vs multistage centrifugal pump|difference between centrifugal pump and multiphase