New Product: Red-RayTM High Intensity Infrared Emitter Exclusively Designed for Paper Drying

Three models available in capacities ranging from 34,125 BTU/hr (KW) to 40,950 BTU/hr (KW)

  • Industry Leading Energy Efficiency
  • More Powerful for Increased Drying Capacity
  • Lower Energy Costs
  • Reduced NOx Footprint
  • Simple and Easily Implemented Retrofit
  • High Tensile Strength
  • Resistant to Water and Coating Damage

A siliconized silicon carbide (SiSiC) lattice is at the core of the high intensity infrared (HI-IR) technology, eliminating the upper temperature limitations in current emitters. The structure and increased surface area of the lattice, combined with the near perfect “black body” emissivity of SiSiC, provides more radiating surface unmatched by other competing technologies.

Complete combustion within the cell structure of the lattice results in no open flames, producing the lowest NOx profile for emitters in the industry. The Red-Ray™ High Intensity Infrared Emitter is designed to mount directly to the existing mixing tubes of all leading infrared systems.

Product Specifications:

  • Industry leading energy efficiency
  • Up to 100% radiant energy density
  • 2450°F (1350°C) maximum operating temperature
  • Siliconized silicon lattice (SiSiC)
  • No metal screens
  • Compatible with existing drying systems

We offer three products in capacities ranging from
34,125 BTU/hr (KW) to 40,950 BTU/hr (KW) that are
configured to mount directly into installed drying
systems:

Pulp and Paper Applications:

  • Infrared paper drying
  • Paper coatings drying

Features and Benefits

  • Industry leading maximum operating temperature 2450°F (1350°C) resulting in higher drying capacity
  • Best in class radiant energy – up to 100% higher resulting in increased production
  • Industry leading energy efficiency engineered for reduced operating costs and reduced NOx and CO emissions
  • Rated capacity of 40,950 BTU/hr (12kw) per emitter
  • Durable design – resistant to water and coating damage for flexibility in selecting installation locations
  • Designed with no metal screens and high tensile strength for reliable performance
  • Designed to mount directly to the existing mixing tubes of all leading infrared systems