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Compressor CFM Calculator Online

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The Compressor CFM (Cubic Feet per Minute) Calculator is a powerful tool designed to provide users with accurate airflow measurements for their compressors. By inputting the volume of the air tank (in cubic inches) and the number of revolutions per minute (RPM) of the compressor's pump, users can quickly determine the CFM, essential information for optimizing compressor performance.

Formula of Compressor CFM Calculator

The calculation is straightforward, following this formula:

CFM = (V × N) / 1728

Where:

  • CFM is the Cubic Feet per Minute of the compressor.
  • V represents the volume of the air tank in cubic inches.
  • N is the number of revolutions per minute (RPM) of the compressor's pump.
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This formula simplifies the process of obtaining crucial CFM values, aiding users in making informed decisions regarding their compressor usage.

General Terms Table

To assist users further, here's a table of general terms related to compressors, making it easier for them to find relevant information without needing to perform calculations each time:

TermDefinition
CFMCubic Feet per Minute, indicating airflow capacity.
RPMRevolutions Per Minute, specifying the pump's rotation speed.
Air Tank VolumeThe total volume of the compressor's air tank in cubic inches.
Air Tank Volume (V)Revolutions Per Minute (RPM)Calculated CFM
300800138.89
6001200277.78
9001500416.67
12002000555.56

These example values showcase different scenarios by varying the air tank volume and revolutions per minute.

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Example of Compressor CFM Calculator

Let's consider an example to illustrate the application of the Compressor CFM Calculator:

Suppose a compressor has an air tank with a volume (V) of 500 cubic inches and operates at 1200 RPM. Plugging these values into the formula:

CFM = (500 × 1200) / 1728

The resulting CFM will provide a clear indication of the compressor's airflow capacity.

Most Common FAQs

Q1: Why is CFM important for a compressor?

A1: CFM is crucial as it determines the compressor's ability to deliver a specific volume of air. Understanding CFM ensures efficient tool operation.

Q3: How does RPM impact CFM?

A3: RPM directly influences CFM; a higher RPM generally results in increased airflow.

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