How many CFM is Porter Cable air compressor?

How many CFM is Porter Cable air compressor?

2.6 SCFM
2.6 SCFM at 90 PSI for fast recovery time.

Is Porter Cable a good compressor?

This Porter Cable Pancake Air Compressor fits my needs, works very well and is much easier to carry. It is still somewhat noisy, but it does maintain good air pressure, which is not bad for a 100 Dollar air compressor. It arrived in excellent condition and on time. I am very pleased with my purchase.

How loud is Porter Cable air compressor?

Overall Take. The oil-free pump on the PORTER-CABLE Pancake Compressor makes it easy to maintain. It’s a bit noisier than newer competitors, with a noise output of 82 decibels (although this is fairly standard for air compressors).

How do you convert to SCFM?

Press “=” to get the SCFM. Double check your calculation with the complete formula: “SCFM = ACFM x ((psig + 14.7) / 14.7) x ((68 +460) / (T + 460)).”

How do you calculate CFM from SCFM?

SCFM To CFM Converter Here is an example of how this calculator works: Let’s say we want to convert 500 SCFM to CFM at 60°F temperature and 16 psi pressure. You just use the slider, set the ‘500 SCFM’, ’60°F’ and ’16 psi’ and you get the result: 500 SCFM is equal to 452.41 CFM at those conditions.

How do I increase the SCFM on my air compressor?

How to Increase CFM on an Air Compressor

  1. 1, Reduce Outlet Pressure on your Air Compressor.
  2. Change your Outlet Size.
  3. 3, Hook up Two Air Compressors in Parallel.
  4. Use an Auxiliary Storage Tank.
  5. Improve the Efficiency of Your Air Compressor.

What is a good SCFM for air compressor?

Look for the “SCFM at 90-psi” number when comparing SCFM ratings. Smaller tools usually require between 0- to 5-SCFM, while larger tools can require 10- or more SCFM. To gauge the minimum compressor SCFM rating you need, examine the SCFM requirements of all the tools you intend to use.

How do I determine the capacity of my air compressor tank?

t = V (p1 – p2) / C pa

  1. V = volume of the receiver tank (cu ft)
  2. t = time for the receiver to go from upper to lower pressure limits (min)
  3. C = free air needed (SCFM)
  4. pa= atmosphere pressure (14.7 PSIA*)
  5. p1 = maximum tank pressure (PSIA)
  6. p2 = minimum tank pressure (PSIA)