Get a complete overview of our Compressed Air, Industrial Gas & Process Cooling Solutions

Find out about our product ranges and newest technology for sustainable productivity.
Capability Brochure

Everything you need to know about your pneumatic conveying process

Discover how you can create a more efficient pneumatic conveying process.
3D images of blowers in cement plant
Close

Compressor Sizing Guide

Compressor Types Air compressors Choosing an Air Compressor Compressed Air Wiki How To

Choosing the right air compressor size is crucial for ensuring efficient and effective operation. The size of the compressor impacts its performance, reliability, and suitability for specific applications. Key factors to consider include airflow, pressure, and the specific requirements of your tools or machinery.

How to Size an Air Compressor

Determining the right size of an air compressor involves a few essential steps:

  • Identify Your Tools and Their Requirements: Make a list of all tools and equipment that will be using the air compressor. Check each tool's CFM and PSI requirements.
  • Consider the Duty Cycle: Assess how often and how long each tool will be used. Continuous operation tools will need a compressor that can handle longer duty cycles.
  • Account for Future Expansion: Think about any potential future tools or increased use. It’s wise to choose a compressor that can handle more than your current needs to avoid outgrowing it quickly.

Want to know more about Airflow, Pressure, Applications, and Power? In the following section, we will explain what each of the compressor selection criteria means and answer some questions you might have.

Compressor Selection Criteria

Selecting the appropriate compressor involves considering several criteria:

  • Airflow (CFM): Determine how much airflow (cubic feet per minute) is required for your applications. This is a critical factor as it indicates the volume of air the compressor can deliver. Different tools have different air tool CFM requirements, making it essential to understand your specific needs.
  • Pressure (PSI): Identify the necessary pressure (pounds per square inch) for your tools and machinery. Various applications will have distinct PSI needs.
  • Application: Consider the specific applications and air quality requirements. Take into account any pressure loss due to dryers, filters, or drains. This includes evaluating whether you need a high-pressure compressor or one suited for spray painting or other specific tasks.
  • Power (HP/kW): While important, power is not the primary selection criterion. Focus on airflow and pressure first, and then match the compressor’s horsepower (HP) or kilowatts (kW) to your needs.

Understanding Air Compressor Capacity and Flow Rate

When sizing an air compressor, it’s essential to understand the difference between capacity and flow rate.

  • Air compressor capacity refers to the total volume of air the compressor can hold, typically measured in gallons or liters.
  • Air compressor flow rate measures how quickly the compressor can deliver air, usually in CFM.

Both metrics are crucial for ensuring your compressor can handle the demands of your tools and applications.

One method to determine total flow is to consult equipment manufacturers for data sheets. However, the most accurate way is to conduct a “compressed air audit” performed by a compressed air sales professional.

What is the right air flow for my compressor?

Airflow, also known as free air delivery (FAD), is measured in cubic feet per minute (cfm), liters per second (l/s), or cubic meters per hour (m³/h) depending on your location. Simply put, airflow determines how effectively a compressor can perform a task within an acceptable time frame. The required flow depends on the duration needed to complete a task.

For example, moving a wooden block a short distance every hour requires less flow and can be managed with a smaller compressor and a storage tank. The compressor cycles on and off, refilling the tank for the next task. However, the constant movement of the block necessitates a larger, continuous flow (higher cfm), thus a larger compressor. Insufficient flow means frequent breaks for pressure buildup, indicating an undersized compressor.

Rotary screw air compressors generally provide more flow per kW or HP than piston compressors.

 

Summary:

When sizing a compressor, consider the specific requirements of the job:

 

 

  • Pressure (PSI): Dictated by the type of task being performed.
  • Flow (CFM): Depends on the frequency and number of simultaneous tasks.
  • Undersized Compressor: Results in pressure drops and incomplete tasks.
  • Oversized Compressor: May cause mechanical issues and failure.
  • For accurate sizing of your compressor for new or existing applications, always contact a compressed air sales professional for an audit.

     

    What amount of pressure do I need?

    Understanding the flow and pressure requirements for your facility is key when choosing an air compressor. Pressure and flow are common terms used when discussing compressed air systems.

    Pressure can be measured in pounds per square inch (psi) or bar (metric measure of pressure). Simply put, pressure refers to the amount of force needed to perform a certain amount of work at any given point in time.

    For example, imagine moving a wooden block across a table: Using 100 psi of compressed air is not enough force to move the block. However, 115 psi of pressure can move the wooden block the desired distance.

    What is the difference between psi, psig, psia?

    The air compressor must provide enough pressure to perform a given task. If 115 psi is required to move the block, anything less will not accomplish the task. It is important to understand the required pressure to size the compressor properly. Otherwise, you may face issues similar to the illustration, where lower pressure fails to move the wooden block or perform the job.

    Applications and CFM/PSI Requirements

    When determining the right compressor, consider both the amount of compressed air flow (cfm) needed and the specific pressure (psi) required for the process. Different tools and applications require specific CFM and PSI levels.

    Below is a chart with common tools and their requirements:

    Applications

    CFM

    PSI

           

    Air tools

    CFM

    PSI

    Home Use 1-2 70-90   Airbrush 0.5-1.5 20-30
    Spray Gun 4-8 30-50 Nail Gun 1-2 70-90
    Spray Painting 4-8 30-50 Dental Equipment 2-4 80-100
    Sandblasting 6-25 70-90 Tire Inflator 2-3 100-150
    Various Power Tools 3-10 90-120 Impact Wrench 3-5 90-100
    HVAC Systems 6-12 80-100 Air Ratchet 3-5 90-100
    Refrigeration 3-5 60-80 Hammer Drill 3-6 90-120
    Automotive Assembly 8-15 90-120 Paint Sprayer 6-7 30-50
    Food and Beverage Packaging 4-10 70-90 Grinder 5-8 90-120

    Common questions when buying a compressor

    How much CFM do I need for an air compressor?

    The CFM required depends on the tools or applications you will be using. Refer to the above chart for specific requirements.

    What size air compressor do I need for home use?

    For home use, the CFM and PSI requirements are generally lower. Typical applications include inflating tires, operating small tools, and spray painting. Ensure you match the compressor to your most demanding tool.

    What size air compressor for spray painting?

    Spray painting requires a compressor that can deliver steady airflow at a relatively low pressure. Generally, a compressor with 4-8 CFM at 30-50 PSI is suitable.

    What Type of Compressor Do I Need?
    Choosing a compressor
    What Type of Compressor Do I Need?
    Find out what compressor is best suited for your needs.
     
    Find out what compressor is best suited for your needs.
    Find out what compressor is best suited for your needs.
    Do I Need an Oil-free or Lubricated Compressor?
    Oil lubricated or oil free
    Do I Need an Oil-free or Lubricated Compressor?
    Find out whether or not you need an oil-free compressor, or if a lubricated compressor will do the job.
     
    Find out whether or not you need an oil-free compressor, or if a lubricated compressor will do the job.
    Find out whether or not you need an oil-free compressor, or if a lubricated compressor will do the job.

    Other factors to consider

    • Air Quality: Depending on your application, you might need oil-free or oil-lubricated compressors.
    • Energy Efficiency: Consider compressors that have validated energy efficiency ratings to save on operational costs.
    • Portability: Determine if you need a stationary or portable compressor based on your workspace and mobility needs.
    • Noise Levels: Some compressors operate more quietly than others, which can be essential in noise-sensitive environments.

    Find more helpful information in the "Guide to Selecting the Optimal Compressor for Your Needs" ebook or contact us for personalized assistance. Our experts are available to help you determine the best compressor for your operations.

    Volume Conversion Calculator

    A volume conversion calculator can assist in air compressor sizing calculation accurately. It helps convert different units of measurement to ensure the compressor meets your specific needs. Using this tool can simplify the process of determining the correct size.

    Compressors come in all types and sizes. From massive machines that keep huge production plants running to the small versions that avid do-it-yourselfers are using, there is a compressor for everyone. With so many models to choose from, which one is the right compressor for you? This guide will help you in making the right decision for your business.

     

    Would you like to turn to one our experts? They are happy to assist you in finding the optimal compressor.