Basic overview of air compressor thermodynamics
21 aprile, 2022
To better understand the physics of air compressor thermodynamics and heat generation, this article discusses the main principles and two gas laws.
If you regularly work with compressed air for industrial purposes, you are likely familiar with the term PSI. However, if you’re relatively new to the world of compressed air, this guide will help you understand the fundamental differences between PSI, PSIA, and PSIG, and how these measurements are applied in various industries.
Air compressors provide pressurized air for various industrial applications and needs. Pressure is measured in PSI and indicates the maximum pressure an air compressor generates. PSI is often in combination with the supply metric CFM (Cubic Feet per Minute).
However, multiple factors influence the air pressure measurements of an air compressor, including altitude and geographic location. We recommend seeking expert advice before attempting adjustments on your own to ensure optimal performance.
PSI is a widely used unit of pressure measurement that indicates the force exerted per square inch of an area. For instance, when inflating a car tire, PSI measures the air pressure inside the tire. PSI is specific to non-SI industrial and technical purposes such as tire pressure, fuel storage and distribution, and wastewater management. For example, an air compressor output rated at 500 PSI means it provides 500 pounds of pressure per square inch.
Also referred to as total pressure, PSIA refers to pressure relative to zero or a perfect vacuum. In a vacuum, if a tire were empty of air, it would measure 0 PSIA.
PSIA measurement includes atmospheric pressure in its reading. At sea level, the atmospheric pressure is approximately 14.7 PSI, so a reading of 30 PSIA includes this atmospheric pressure.
PSIG measures the pressure relative to the ambient atmospheric pressure. Unlike PSIA, PSIG does not account for atmospheric pressure. Therefore, PSIG is always lower than PSIA by the amount of ambient atmospheric pressure.
For instance, a vessel completely void of any air molecules at sea level would read roughly -14.7 PSIG, and ambient air pressure is always measured as 0 PSIG.
Using these formulas, you can easily convert between PSIA and PSIG if you know the atmospheric pressure at your location.
PSIG is always lower than PSIA.
The formulas used to describe the relationship are:
(where ATM is atmospheric pressure)
21 aprile, 2022
To better understand the physics of air compressor thermodynamics and heat generation, this article discusses the main principles and two gas laws.
21 aprile, 2022
L'azoto è tutto intorno a noi. È il costituente principale dell'aria che respiriamo, ma noi non lo utilizziamo. Questo articolo illustra alcuni dei suoi numerosi impieghi.
26 aprile, 2022
Per capire il funzionamento dell'aria compressa, un'introduzione di base alla fisica sottostante può risultare particolarmente utile. Scopri ulteriori informazioni sulla termodinamica e sulla sua importanza vitale per la comprensione delle modalità di funzionamento dei compressori dell'aria.