Top 10 Compressed Air Rules of Thumb

Top 10 Compressed Air Rules of Thumb




Here are the TOP TEN Compressed Air “Rules of Thumb” – designed to respond to the questions that industrial air compressor users ask about most.

1. CFM delivery per Horse strength expected at 100 PSIG:

o For “home owner” kind of air compressors—2 to 2.5 CFM per HP

o For Industrial Air-cooled 2-stage air compressors—-3.5 CFM per HP

o For Small Vane & Screw air compressors (25 HP or less) 4 CFM per HP

o For large Piston, Screw & Centrifugal air compressors–4.5 to 5 CFM per HP

observe: THE MORE CFM PER HP – THE LESS ENERGY USED.

2. Air Receiver Size needed for these types of inlet control:

o Modulating Control—————0 to 1 gallon per CFM

o On-Line/Off-Line—————– 3 to 4 gallons per CFM

o Stop-Start/ Variable Speed– 4 to 6 gallons per CFM

observe: THE MORE AIR STORAGE  – THE LESS ENERGY USED

3.  Amperage per Horse strength:

115 Volts——-  1 phase——– 10 amps per horse strength

230 Volts——-  1 phase——– 5 amps per horse strength

208 Volts——-  3 phase——– 3 amps per horse strength

230 Volts——-  3 phase——– 2.5 amps per horse strength

460 Volts——-  3 phase——– 1.25 amps per horse strength

574 Volts——-  3 phase——– 1 amp per horse strength

observe: THE MORE ENERGY EFFICIENT THE MOTOR – THE LESS ENERGY IS USED.

4. Air Piping Size by CFM and Pressure Drop:

o Compressor Room Header—0.25 PSIG pressure drop per 100 feet of piping

o Main Line—————–0.5 PSIG pressure drop per 100 feet of piping

o Loop Line—————–1 PSIG pressure drop per 100 feet of piping

o Branch Line—————2 PSIG pressure drop per 100 feet of piping

observe: THE LESS AIR PRESSURE DROP – THE LESS ENERGY USED.

5. Size your Compressed Air Line Filters to be twice (2x) your compressor CFM flow rate.

o This will lower your pressure drop 2-3 PSIG and save an additional 1% on electrical energy costs.

o Elements will last twice (2x) as long and this can save on your maintenance costs.

6. Lowering Air Compressor Pressure settings by 2 PSIG will consequence in a 1% energy savings.

7. Lowering Air Compressor Inlet Air Temperature by 10° F will consequence in a 2% energy savings.

8. The average energy cost to function an air compressor is approximately $0.10 per horse strength per hour.

9. Compressed Air system leaks totaling the size of a 1/4″ orifice, at 100 PSIG, running 24 hours a day will waste approximately $15,000 worth of electrical energy a year.

10. Using Synthetic Compressor Lubricants can save you up to 9% of the energy cost of operating your compressor as compared to using a non-synthetic lubricant.

COMPRESSED AIR DEFINITIONS:

CFM= Cubic Feet per Minute  – Volumetric air flow rate.

Inlet Pressure = The actual pressure at the inlet flange of the compressor.

PSIG= Pounds Per Square Inch Gauge

AMPS=Abbreviation of the plural for Ampere, a unit of electrical current

Pressure = Force per unit area, measured in pounds per square inch (psi).

Pressure Dew Point = For a given pressure, the temperature at which water will begin to condense out of air.

Inlet Temperature = The total temperature at the inlet connection of the compressor.

Knowing these “Rules of Thumb” can assist you in understanding many of the basics of compressed air. Applying these tips can help save you time , energy and money.




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