Comprehensive Guide to Various Types of Centrifugal Pumps, and ...

Jul. 07, 2025

Comprehensive Guide to Various Types of Centrifugal Pumps, and ...

These pumps are known for their ability to move large volumes of fluid quickly and efficiently, making them ideal for use in a variety of industries. In this comprehensive guide, we will cover the different types of centrifugal pumps, their applications, and how they work.

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Introduction

Centrifugal pumps are used in various industries, including oil and gas, food and beverage, pharmaceutical, and water treatment. These pumps can be used to move liquids of different viscosities and can handle different flow rates. They are also versatile and can handle a wide range of fluid temperatures and pressures.

In this article, we will discuss the different types of centrifugal pumps, their applications, and how they work. We will also cover the advantages and disadvantages of centrifugal pumps, as well as maintenance and troubleshooting tips.

What is a Centrifugal Pump?

A centrifugal pump is a type of mechanical device that is used to move fluids by the conversion of rotational kinetic energy to the hydrodynamic energy of the fluid flow. The fluid enters the pump impeller along or near to the rotating axis and is accelerated by the impeller, flowing radially outward into a diffuser or volute chamber, where the kinetic energy is converted into pressure energy.

Types of Centrifugal Pumps

There are four types of centrifugal pumps: single-stage, multistage, axial-flow, and mixed-flow.

Single-stage Centrifugal Pumps

Single-stage centrifugal pumps have a single impeller that rotates within a casing. They are used to pump low-viscosity fluids, such as water and thin oils, and are ideal for applications where low to moderate flow rates are required.

Multistage Centrifugal Pumps

Multistage centrifugal pumps have multiple impellers mounted on the same shaft and operate in series. They are used to pump high-pressure fluids, such as boiler feedwater, and can be used in applications where high flow rates are required.

Axial-flow Centrifugal Pumps

Axial-flow centrifugal pumps have a propeller-like impeller that operates like a boat propeller, drawing the fluid into the center of the impeller and expelling it outwards. They are used to pump high-flow, low-pressure fluids, such as water and sewage.

Mixed-flow Centrifugal Pumps

Mixed-flow centrifugal pumps have impellers that combine the features of both radial and axial-flow pumps. They are used to pump high-flow, high-pressure fluids, such as oil and gas.

Applications of Centrifugal Pumps

Centrifugal pumps are used in a wide range of industries and applications, including:

Agriculture

Centrifugal pumps are used in agriculture for irrigation and crop spraying. They can move water from a well or a reservoir to the irrigation system, ensuring that crops receive the proper amount of water. Centrifugal pumps are also used to spray fertilizers and pesticides on crops, which can help improve crop yields.

Chemical and Petrochemical

Centrifugal pumps are used in the chemical and petrochemical industries for the transfer of chemicals, acids, and corrosive liquids. They are often made of materials that can withstand harsh chemical environments and are used in processes such as chemical mixing, pumping, and refining.

Food and Beverage

Centrifugal pumps are used in the food and beverage industry to pump fluids such as fruit juice, milk, and beer. They are often used to transfer fluids from one process to another, such as moving milk from the cow to the processing plant or transferring beer from the fermentation tank to the bottling line.

Water and Wastewater

Centrifugal pumps are used in water treatment and wastewater treatment plants to move water and sewage. They can also be used to pump water from a well or a reservoir to a water treatment plant, ensuring that the water is safe to drink.

Oil and Gas

Centrifugal pumps are used in the oil and gas industry to pump crude oil, natural gas, and other fluids. They are often used in pipelines, refineries, and drilling rigs and can handle fluids with high viscosities and pressures.

Pharmaceutical

Centrifugal pumps are used in the pharmaceutical industry to pump fluids such as chemicals, solvents, and pharmaceutical products. They are often used in the production of medications and can handle delicate fluids that require precise handling.

How Centrifugal Pumps Work

Centrifugal pumps work by converting rotational energy into hydrodynamic energy. The pump impeller is mounted on a shaft that rotates, causing the fluid to enter the impeller and be accelerated outward by centrifugal force. The fluid then flows into a diffuser or volute chamber, where the kinetic energy is converted into pressure energy.

Impeller

The impeller is the rotating part of the centrifugal pump that accelerates the fluid. It is typically made of metal, plastic, or composite materials and can have various numbers of blades.

Casing

The casing is the stationary part of the pump that contains the impeller. It is typically made of metal and can have various shapes, such as volute or diffuser.

Suction and Discharge

The suction and discharge are the two ports of the pump. The suction port is where the fluid enters the pump, and the discharge port is where the fluid exits the pump.

Advantages and Disadvantages of Centrifugal Pumps

Centrifugal pumps have several advantages, including:

High flow rates
Ability to handle a wide range of fluid temperatures and pressures
Low maintenance
Easy to install and operate

Inability to handle fluids with high viscosities
Not suitable for high-pressure applications
Require a continuous supply of fluid to function properly

Maintenance and Troubleshooting

To ensure that a centrifugal pump operates properly, it is essential to perform regular maintenance. This includes checking the pump for leaks, inspecting the impeller and casing for wear and damage, and ensuring that the motor is functioning correctly.

If a centrifugal pump is not working correctly, there are several troubleshooting steps that can be taken. These include checking the suction and discharge valves, inspecting the impeller and casing for damage, and checking the motor for proper operation.

Conclusion

Proper maintenance and troubleshooting are essential for ensuring that centrifugal pumps operate effectively and efficiently. Regular maintenance checks and prompt troubleshooting can help prevent pump failures and minimize downtime, which is crucial in many industrial processes.

Whether you need a centrifugal pump for agricultural irrigation, chemical processing, food and beverage production, or any other application, understanding the various types and their unique features and limitations is important for selecting the right pump for your needs.

If you want to learn more, please visit our website Pump Volute Casing.

FAQs

Centrifugal Pump Types and Applications - Hayes Blog

Pumps play a vital role in the ways our world functions today. Industrial pumps, for example, are a part of most manufacturing processes. Commercial pumps ensure that office buildings remain functional for businesses. Similarly, municipal pumps provide fresh water for our cities and clear wastewater from our drainage systems.

While pumps are available in several types, centrifugal pumps are the most common in operation today. These pumps find applications across a vast set of residential, commercial, municipal, and industrial processes. They are the ideal choice for meeting various pumping requirements owing to their wide range of capacity and head, high efficiency, design simplicity, smooth flow rate, and ease of operation and maintenance. Centrifugal pumps are also ideal for pumping lower viscosity (thin) liquids and in applications that demand high flow rates.

Although centrifugal pumps come in a variety of configurations, choosing the correct pump depends on several factors. Some of these include the pump's construction, its application, the fluid being pumped, fluid pressures and temperatures required, compliance, and service.

Types of Centrifugal Pumps

While the general principle behind how centrifugal pumps work is the same, they can be classified into more specific categories as follows:

Flow type

This category classifies pumps according to how the fluid flows through the pump. Pumps in this category include:

Radial Centrifugal Pumps

The fluid enters the suction line in radial flow pumps and takes a 90-degree turn to enter the first stage. The design of these pumps facilitates an outward motion flow, which speeds up with the use of impellers. The fluid entering the horizontal suction flange exits through a vertical discharge flange. As such, the discharge in radial centrifugal pumps is perpendicular to the pump shaft. Such a design helps in increasing the discharge pressure while keeping the fluid flow rate lower. Radial pumps are more common in the oil & gas industry.

Axial Centrifugal Pumps

The fluid flow in axial pumps is parallel to the pump shaft. These pumps produce flow from the propelling motion of the impeller vanes (via a lifting effect). Axial pumps are capable of handling a large amount of fluid while keeping the pressure head low. These pumps find applications in irrigation and dewatering systems, fluid circulation in power plants, and evaporators.

Number of Stages

This category classifies pumps on the number of stages a pump has. A stage determines the number of impellers within a centrifugal pump.

Single Stage

These pumps utilize a single impeller, which makes their design simple and easy to maintain. This design typically works best for low-pressure and large-flow-rate installations. For the most part, this pump services a low to moderate total dynamic head and high flow.

Multistage

As the name implies, this pump has multiple (two or more) impellers connected in series. Each stage increases the fluid pressure further to meet the desired outlet pressure head requirements. Evidently, multistage pumps are useful for applications requiring a high head at discharge. For example, these pumps are ideal for pumping boiler feed water, boosting water supply, irrigation, reverse osmosis, and fire fighting. For more info, see our post on multistage pumps explained.

Design Code

Many centrifugal pumps need to meet specific industry standards established by bodies such as the American National Standards Institute (ANSI) and American Petroleum Institute (API). There are also DIN, ISO, and ASME specifications for pumps used in nuclear applications.

ANSI

Regardless of the manufacturer, ANSI pumps are identical in interface and envelope to meet the dimensional standards set by ANSI. As a result, these pumps are also easy to interchange with similar-rated pumps. Ideal for low fluid flow rates, ANSI pumps are single-stage centrifugal pumps that find applications in process plants, food processing, textile industries, and manufacturing units.

API

While ANSI standards define the dimensional requirements, API emphasizes the design, construction, and structural integrity of the pumps. As a result, these pumps are usually preferred for heavy-duty applications and in handling toxic fluids. Industries that employ API pumps include oil and gas, petrochemical, and other processing units.

Shaft Orientation

Centrifugal pumps can also be classified by shaft orientation:

Horizontal

In this type, a shaft is at a horizontal plane and includes a minimum of two or more impellers. They are widely used for pumping services due to their easy maintenance.

Vertical

Vertical centrifugal pumps are also known as cantilever pumps. These are usually installed where the available space is limited. Borewell pump and sump collection are some examples of this type.

Pump Casing

In some cases, it is useful to classify a pump based on their casing:

Number of Volutes

A volute is a space inside the pump casing with an increased area near the discharge point of the pump. A pump casing either consists of a single volute or a double volute. A single volute casing is simple in design consisting of a single cutwater to guide the flow out of the impeller. In comparison, double volute casings feature two cutwaters located 180-degrees from each other. This volute type balances the radial load acting on the impeller and allows equal pressure distribution in the volute.

Casing Design

A pump casing can be split open for maintenance in either a radial split or an axial split. This type of casing opens parallel to the impeller(s) and perpendicular to the shaft axis. In comparison, an axially split pump casing splices into two halves that get separated horizontally or parallel to the shaft axis.

Other Classifications

Pumps can also be classified on various other factors such as the number of suction lines it has, single or double. When the flow rate is very high, a single-suction pump will not be adequate; hence a double suction pump will be used. Even in a double suction pump, there is a single suction line, but the impeller design of these pumps lets fluid enter from both sides.

Common Applications of Centrifugal Pumps

Centrifugal pumps find applications in:

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Food processing
Fire fighting systems
Chemical manufacturing
Sewage/slurry disposal
Petrochemical industries
Power plants
Manufacturing plants
Industrial air conditioning
Residential water supply
Irrigation

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