Airwatt or air watt is a unit of measurement that represents the true suction power of vacuum cleaners. It is calculated by multiplying the airflow (in cubic metres per second) by the suction pressure (in pascals).[1][2] This measurement reflects the energy per unit time of the air flowing through the vacuum's opening, which correlates to the electrical energy (wattage) supplied through the power cable.[3]
The airwatt is a valuable measurement of vacuum cleaner motor efficiency because it represents the power carried by the fluid flow (in the case of a typical household vacuum, this fluid is air). The power of the airflow is equal to the product of pressure and volumetric flow rate. Unlike electrical power (measured in watts), which includes energy lost as heat due to inefficiencies in the motor, the airwatt directly reflects the actual airflow and suction power. Therefore, two vacuum cleaners with the same airwattage will have essentially the same suction, whereas devices with the same electrical wattage might vary significantly in efficiency, resulting in different airwattage levels.
Definition
[edit]The "power in airwatts" (meaning: effective power in watts) is calculated as the product of suction pressure and the air flow rate:
Where is the power in airwatts, is the suction pressure in pascals, and is the air flow rate in cubic metres per second:
Equivalently, in SI base units:
An alternative airwattage formula is from ASTM International (see document ASTM F558 - 13)[4]
Where P is the power in airwatts, F is the rate per minute (denoted cu ft/min or CFM) and S is the suction capacity expressed as a pressure in units of inches of water.
Some manufacturers choose to use the fraction 1⁄8.5 rather than the ASTM decimal, leading to a less than 0.25% variation in their calculations.
Where airflow in Cubic Feet per Minute [CFM] is calculated using
- airflow = √13.35 × D2 / vacuum
Where D is the diameter of the orifices.[5]
CFM is always given statistically at its maximum which is at a 2-inch (51 mm) opening. Waterlift, on the other hand, is always given at its maximum: a 0-inch opening. When waterlift is at a 0-inch opening, then the flow rate is zero – no air is moving, thus the power is also 0 airwatts. So one then needs to analyse the curve created by both flow rate and waterlift as the opening changes from 0 to 2 inches (0 to 51 mm); somewhere along this line the power will attain its maximum.
If the flow rate were given in litres per second (L/s), then the pressure would be in kilopascals (kPa). Thus one watt equals one kilopascal times one litre per second:
The ratio between the Airwatt rating (power produced in the flow) and electrical watts (power from voltage and current) is the efficiency of the vacuum.
Ratings recommendations
[edit]Hoover recommends 100 airwatts for upright vacuum cleaners and 220 airwatts for "cylinder" (canister) vacuum cleaners.[6]
References
[edit]- ^ ""Airwatts" applied to carpet extractors". Cleanfax. February 12, 2013.
- ^ "Powr-Flite Applies Airwatts to Carpet Extractors". CleanLink.
- ^ American Woodworker. United States: Rodale Press. 1998.
- ^ "ASTM F558 - 18 Standard Test Method for Measuring Air Performance Characteristics of Vacuum Cleaners" (PDF). www.astm.org. ASTM International. doi:10.1520/F0558-21. Archived from the original (PDF) on December 28, 2023. Retrieved December 27, 2023.
- ^ "Ametek/Lamb Electric Technical Series" (PDF). Retrieved 2019-07-20.
- ^ "Air Watts | Suction Power Watts vs Air Watts - Hoover". Archived from the original on 2014-01-06. Retrieved 2019-07-20.