Desiccants and Molecular Sieves (Adsorbents)
Media-Based Adsorber removes airborne gaseous contaminants.
Press Release Summary:
CitySorb(TM) CH uses Indoor Air Quality Method to minimize amount of outdoor air introduced to remove building contaminants. It installs in side-access filter housings or built-up banks using integral 1 in. nominal header. Resistance to airflow is 0.38 in. w.g. at 500 fpm velocity. Variety of media blends suit different requirements ranging from odor and VOC removal in HVAC systems to control of corrosive gases, ammonia/amines, or oxidizable gases in industrial settings.
Original Press Release:
New Media-Based Adsorber Removes Airborne Gaseous Contaminants
Riverdale, N.J., June 2003 - Camfil Farr has introduced a new media-based adsorber for the control of airborne gaseous contaminants. Called the "CitySorb(TM) CH", it is ideal for HVAC applications in geographic areas where ozone may be a concern, and/or wherever the use of outside air for indoor contaminant dilution may be problematic based upon elevated levels of other gaseous pollutants. Using the Indoor Air Quality Method as prescribed in ASHRAE Standard 62, the CitySorb CH is an excellent tool to minimize the amount of outdoor air typically introduced to remove building contaminants, thereby reducing energy costs. The CitySorb CH will also remove airborne gaseous contaminants specific to the medical, pharmaceutical and electronics industries, and other applications where continuous control of low-level molecular contaminants is needed to ensure reliability of production processes (e.g., photolithography).
The adsorber is available with a variety of media blends to suit different requirements, ranging from standard odor and VOC removal in HVAC systems to the control of corrosive gases, ammonia/amines, or oxidizable gases in specialized industrial settings.
Lightweight and compact (minimal 12" depth) for easy installation and disposal, the CitySorb CH is designed for installation in side-access filter housings or built-up banks using an integral one-inch nominal header. It offers low resistance to airflow (0.38" w.g. at 500 fpm velocity) for optimum energy performance.
For further information, call (866) 4CAMFIL, fax (973) 616-7771, or write to Camfil Farr Marketing Dept., One North Corporate Dr., Riverdale, NJ 07457; e-mail literature@camfilfarr.com, Web site www.camfilfarr.com.
In Canada, call (866) 4CAMFIL, fax (450) 662-6035; or write to Camfil Farr, 2785 Frances Hughes Ave., Laval, Quebec H7L 3J6; e-mail literature@camfilfarr.com, Web site www.camfilfarr.com.
