New Guide – Operator Enclosures and COVID-19
See the RESPA Filtration Program Rating Tables for specifics and how the ratings relate to RESPA filters
How Air Filters Work
Filter media is made up of many criss-crossed fibers layered in random directions. When particles from the working environment enter the RESPA air intake port, the particles are impacted and intercepted onto the filter fibers. These particles are subjected to specific filtration mechanics and are dependent on the size of the particle and airflow velocity.
Here is a list of the filtration mechanics and their respective definitions:
- *Inertial impaction – Occurs when a particle encounters a filter fiber due to the inertia of the particle.
Example: A large dust particle is unable to change direction of flow due to its inertia, so it impacts the fiber and becomes attached to it.
- *Interception – Occurs when a particle follows a gas streamline that happens to come in contact with the surface of a fiber.
Example: An intermediate dust particle that readily follows the airflow stream comes in contact with a filter fiber.
- *Diffusion – Occurs when particles do not follow gas streamlines as readily and are governed by random particle motion (Brownian motion of small particles).
Example: A small particle, such as certain exhaust particles, encounter filter fibers at random.
- Electrostatic attraction – Occurs when an electrostatic charge on the filter fibers are present.
Example: Static charge on a fabric creating static cling.
*In terms of filtration, the most important filtration mechanics pertaining to everyday use are: 1) Intertial impaction and 2) Interception.
The larger particles that encounter the engine filter tend to impact onto the exterior surface of the filter media. The smaller particles that follow airflow streamlines tend to impact and intercept within the depth of the engine filter media. For smaller particles, the filter fibers act as branches that catch harmful engine contaminants passing through the filter. Thus, when a Cab Air Quality System utilizes a precleaner, such as the RESPA-CF2, HVAC life is extended and down time is reduced as fewer contaminants are reaching the filter. Note: Our MERV 16 filter media has special patented properties that shed most particles.
What is the definition of MERV and what does MERV mean when buying an air filter?
MERV is an acronym for “Minimum Efficiency Reporting Value”. The MERV rating on an air filter describes its efficiency as a means of reducing the level of 0.3 to 10 micron-sized particles in air which passes through the filter. Higher “MERV” means higher filter efficiency. The purpose of the MERV standard is to permit an “apples to apples” comparison of the filtering efficiency of various air filters.
Air filter efficiency refers to the relative ability of a filter to remove particles of a given size or size range from air passing through the filter. If a filter were 100% efficient, none of the particles in a given size range would escape the filter and air which has passed through such a filter would contain zero particles.
The MERV Efficiency Rating Scale ranges from 1 to 16, with 1 being the lowest efficiency and 16 describing the highest efficiency. The particle size range addressed by the MERV scale is 0.3 to 10 microns. A logical inference is that if an air filter is removing particles down to 0.3-10 microns, it is certainly also at least that efficient at removing larger sized particles.
Our patented high-efficiency MERV 16 filters have unique properties, as the filter media sheds most dirt rather than the particles being embedded in the filter.
HEPA air filters are not MERV rated as they exceed the ASHRAE test protocol 52.2 used in determining the MERV ratings. In fact, HEPA air filters are the ONLY mechanical air filters that are tested and certified to meet a specific efficiency at a specific particle size. All HEPA air filters must meet a minimum efficiency of 99.97% at 0.3 microns. ASHRAE or MERV air filters are tested using the Dust Spot tests that incorporate some fine dust, powdered carbon and some cotton linters. The Dust Spot test particle size range is from 0.3 microns to 50 microns in size with an average size of approximately 20 microns in size.
HEPA air filters are tested using DOP, Mineral Oil and other materials that generate a mono-dispersed particle that are all .3 microns or smaller in size. In essence, if 10,000 0.3 micron sized particles are blown into a HEPA air filter, only 3 particles are allowed to pass through. Thus, you get the 99.97% at 0.3 micron rating. If you were to use the HEPA test on a 95% ASHRAE air filter they would be about 50% efficient on 0.3 micron sized particles once they loaded up with dust. So, HEPA air filters are at least 50% more effective at removing respirable sized airborne particles than any of the ASHRAE air filters previously available on the market.
Selecting the best RESPA® Filter for your environment:
MERV 16 Filter:
Recommended for uses where airborne contaminants place operator at risk, including contaminants such as Beryllium, DPM (Diesel Particulate Matter), and RCS (Respirable Crystalline Silica). We highly recommend this filter as it represents the best mix of high efficiency filtration and economy.
Recommended when the very highest level of filtration is needed, OR where HEPA filters are necessary due to regulatory requirements.