Axial Compressor vs Centrifugal Compressor: Working Principle & Applications
It is important to know the principle of compression used for your application needing compressed air and gases to ensure that your process remains efficient.
There are two main types of compressors: positive displacement, and dynamic. Dynamic compressors are further categorized into axial and centrifugal compressors.
Both axial and centrifugal compressors, also referred to as turbo compressors operate by the velocity of gas and convert the energy to pressure.
A dynamic compressor works at a constant pressure, unlike a displacement compressor which works with a constant flow. Dynamic compressor performance is affected by external conditions like ambient air temperature, for example and this can vary the outlet capacity.
This article will explore the major differences between axial and centrifugal compressors.
What are Axial Compressors?
As the name suggests, axial compressors are known for their axial flow.
In axial compressors, the gas or air passes along the shaft of the compressor through stationary and rotating blades. It increases the velocity of the air gradually while the stationary blades convert the kinetic energy to pressure.
Axial compressors are smaller in size and lighter in weight, compared to centrifugal compressors and normally operate at higher speeds.
Common applications for axial compressors are found in gas turbines electricity generation or for the propulsion of air crafts.
The Working Principle of Axial Compressors
Axial flow compressors are comprised of multiple stages of stationary and rotating blades. The air is drawn in parallel to the axis of the rotation. It is then compressed at every stage.
These compressors are very high-speed and gas flows into the intake ports and pushes the gas through the compressional space via stationary stators rotating rotor blades.
In the axial-flow compressors, the flow enters the compressors in an axial direction, as the name suggests. The flow then exits from the gas turbine. In axial compressors, it works by accelerating the fluid and diffusing it so that the pressure increases.
The industrial gas turbine has low pressure ratio and firing temperatures. The compressors compress the working fluid by accelerating the fluid and diffusing it so that the pressure increases.
The Application of Axial Compressors
Axial compressors have the following applications:
- Blast furnace air
- Air separation plants
- High-speed ship engines
- In small scale power statins
- Land-based gas turbines
- Aircraft turbojet engines
What are Centrifugal Compressors?
Centrifugal compressors are known for their radial discharge flow.
In centrifugal compressors, air is drawn to the center of a rotating impeller that had radial blades. The air is then pushed towards the perimeter of the impeller by centrifugal forces.
The radial movements lead to a rise in the pressure as well as in generating kinetic energy. The air passes through a volute and a diffuser where it converts the kinetic energy into pressure and is then led to the center of the impeller.
The Working Principle of Centrifugal Compressors
Centrifugal compressors have a rotating impeller disk. This impeller disk sucks the air into the center of the disk through an inlet, adjusted at a 90-degree angle to eye of the disk’s center.
The disk comes with impeller vanes which is why it looks like a pie. Around the impeller disk is a diffuser vane volute casing. The air enters the eye of the impeller disk and gets redirected outward because of the inertia of rotation and the impeller vanes.
The low-pressure air gets to the edge of the disc to enter the casing through the diffuser. Eventually, the diffuser and the casing slow down the air, increasing the pressure. Centrifugal compressor can be 1 stage for low pressure applications and at the same time in 2 or 3 stages with intercoolers (stainless-steel) for medium pressure air where pressure ratios per stage is keep lower to have better efficiency. A high-speed gearbox is integrated with the compressor stages to rate the impellers on high-speed pinions.
This technology is preferred for process industries or plants with large constant air demands.
The Application of Centrifugal Compressors
Radial / Centrifugal compressors have the following applications:
- Glass factories
- Aluminum smelters
- Air separation plants
- Textile plants
- Wastewater treatment
- Chemical process
- Small turbofan engines
- Gas compression in oil platforms
Axial Compressor vs. Centrifugal Compressors: Main Differences in A Nutshell
- Axial flow compressors do not change the gas direction while centrifugal compressors do.
- Axial compressors are generally smaller and lighter than centrifugal compressors.
- Centrifugal compressors are easy to fix and maintain. They come as Plug & Play units delivered from factory.
- Centrifugal compressors are comparatively less expensive.
- Axial compressors used for moderate pressure applications while Centrifugal compressors are higher pressures for process/ utilities/ factories.
Let’s break down the advantages and disadvantages of both compressors one by one.
Advantages of Axial Compressors
- It has a high peak efficiency
- It has a small frontal area
- The increased number of stages with negligible losses leads to increase in pressure
Disadvantages of Axial Compressors
- The manufacturing of axial compressors is difficult
- These compressors are expensive
- These compressors are sensitive to disruptions in flow
- These compressors are sensitive to the aerodynamic stall and angle of attack
Advantages of Centrifugal Compressors
- It is highly reliable and low maintenance
- These compressors are energy-efficient
- The compressors are insensitive to flow disruptions
- It is a wide range of rotational speed
- These compressors are oil-free in nature
- It does not have many rubbing parts
Disadvantages of Centrifugal Compressors
- These compressors are sensitive to changes in gas composition
- It requires sophisticated vibration mounting
- These compressors face choking, stalling, and surging
We hope that this article was helpful in getting a deeper understanding of the differences of centrifugal and axial compressors.
Atlas Copco provides robust axial and
We hope that this article was helpful in getting a deeper understanding of the differences of centrifugal and axial compressors.
Atlas Copco provides robust axial and
We hope that this article was helpful in getting a deeper understanding of the differences of centrifugal and axial compressors.
Atlas Copco provides robust axial and
We hope that this article was helpful in getting a deeper understanding of the differences of centrifugal and axial compressors.
Atlas Copco provides robust axial and centrifugal compressor solutions that are capable of handling pressures up to 205 bar and volume flows up to 560,000 m3/h.
For more information on the axial and centrifugal compressors, get in touch with our technical experts.