Wet Dust Collectors

RotoClone® W

AAF RotoClone W
The RotoClone® W is the most cost effective, high-efficiency wet dust collector in its class. Combining a dust collector with a centrifugal fan, saving space and enhancing its suitable for a wide variety of different applications. The distinguishing feature of the RotoClone® W is the addition of a fine water film on the impeller blades to capture even the smallest of dust particles.

Typical Applications

  • Ceramics
  • Chemicals
  • Coal
  • Flour
  • Food and Beverage
  • Industrial
  • Metal Grinding
  • Mineral Extraction
  • Mining
  • Packaging

RotoClone® N

AAF RotoClone N
The RotoClone® N combines high efficiency, low maintenance costs, simplicity, flexibility and low water usage to maximize performance. The RotoClone® N is a flexible design for a wide range of operating conditions with minimal servicing requirements. The RotoClone® N is an optimal solution for chemical, industrial processes, metal grinding, and metalworking environments.

Typical Applications

  • Chemicals
  • Coal
  • Foundries
  • Industrial Processes
  • Metal Grinding
  • Metalworking
  • Packaging
  • Pharmaceutical
  • Pill Encapsulation
  • Rubber and Plastic
  • Woodworking

RotoClone® LVN

AAF RotoClone LVN
The RotoClone® LVN wet collector was patterned after the standard RotoClone® N collector, which has been installed in thousands of applications since its introduction in the 1940s. It is an efficient, compact and economical wet-type dust collector specifically designed for volumetric flow rates of 2,500 CFM or less.

Typical Applications

  • Ceramics
  • Chemicals
  • Food Processing
  • Foundries
  • Lead Battery Plants
  • Metalworking
  • Pharmaceutical
  • Rubber and Plastic

RotoClone® DownVent

RotoClone DownVent
The RotoClone® DownVent is an efficient wet collector for use in metal grinding and metalworking environments.

Typical Applications

  • Metalworking
  • Metal Grinding
  • Primary Metals

Kinpactor®

Kinpactor
The venturi shape of the Kinpactor® provides the most efficient conversion of potential energy (static pressure) into kinetic energy (velocity), and then allows maximum regain or reconversion of this high velocity back to static pressure as velocity diminishes in the diverging section.

Typical Applications

  • Cement
  • Coal
  • Mining
  • Pulp & Paper
  • Steel