Brentwood DE080 Blade Drift Eliminator

With the tightest blade spacing, DE080 is the most efficient blade drift eliminator and offers the lowest blade drift eliminator pressure drop. This model also features an open drainage design for crossflow induced-draft applications.

  • Easy to assemble on site.
  • Popular choice for international projects because freight costs can be significantly lowered by shipping unassembled components instead of assembled modules.
  • Nests with adjacent modules to provide seamless drift removal by eliminating gaps between packs that can allow drift droplet bypass.
  • Open drainage design for crossflow induced draft applications.
  • Drift loss of 0.002% circulating water flow (Test Method CTI-HBIK Standard 140).
  • Material meets CTI Standard 136.
Brentwood DE080 Blade Drift Eliminator
Brentwood DE080 Blade Drift Eliminator

DE080 is designed for applications requiring very low drift levels in counterflow or crossflow cooling towers, evaporative cooling systems, and scrubbers.

Product Weights & Span Capabilities

Blade Thickness Dry Weight Maximum Span
lbs/ft2 kg/m2
25 mils (0.64 mm) 1.4 6.8 6 ft (1.8 m)
Brentwood DE080 Blade Drift Eliminator


DE080 Blade Drift Eliminators are available in UV-stabilized PVC and HPVC (for high temperatures). These compounds have outstanding resistance to weather exposure and are nearly impervious to chemical degradation by alkalis, acids, greases, fats, oils, and biological attacks. They also have an excellent fire rating due to their self-extinguishing characteristics and meet or exceed Cooling Technology Institute Standard 136.

DE080 Specifications

Product description

DE080 Blade Drift Eliminator Modules use a tightly spaced series of sinusoidal-shaped PVC blades that force the leaving air to make three distinct changes of direction, resulting in very efficient drift droplet removal. This performance does not come at the expense of fan energy, as the engineered flow through the DE080 achieves very low pressure drop. The blades are held together with one-piece end caps, forming an assembled module that is lightweight but strong enough to span up to 6 feet between supports, saving material and labor costs in addition to reducing air blockage.

Additional information