Proper filtration selection is critical to ensure operator safety from potentially harmful odors, vapors and airborne particulate. When selecting a filter for your application, Mystaire® reviews the complete application to make certain the proper filtration package is selected. At our state-of-the-art facility in Creedmoor, North Carolina, Mystaire® filters are manufactured to the strictest quality standards in the industry. Our filters have undergone thorough laboratory testing to ensure their capability to meet your application challenges.
The particulate pre-filter is an electrostatically charged fiber filter which effectively removes submicron particulates. It is designed to protect the adsorption filter from contaminants such as smoke, acid mists, and other submicron particulates. All units are initially supplied with a pre-filter.
Activated Carbon Filters
Mystaire® activated carbon filters consist of high-grade coconut shell carbon. The steam activated nutshell provides a large surface area and an extensive internal pore structure for a high degree of adsorbency.
Chemisorptive Carbon Filters
To remove lighter weight gases that are not physically adsorbed by activated carbon alone, an impregnant is added to these filters. The impregnant utilizes chemical and physical attraction to enhance adsorption.
Multiple Application Filters
These filters are designed to remove a wide variety of contaminants. They are multi-layered filters according to general use or customized for special applications. For removing both chemical vapors and fine particulates, there is a special two-stage filter consisting of activated carbon (A/C) and HEPA.
High Efficiency Particulate Air (HEPA) Filters are available in various configurations for the containment of particles. The filter has a 99.997% efficiency rating for collecting 0.3 micron particles.
Ultra Low Particulate Air (ULPA) Filters are available in various configurations for the containment of particles. This filter has a 99.999% efficiency rating for collecting 0.125 micron particles.