Heatex offers a broad range of plate heat exchangers in different sizes spanning applications from ventilation (and other heat recovery) to thermal management and wind and renewables. Plate heat exchangers are often the preferred choice thanks to their strong aluminum plates in high standard alloy which gives the products a very long lifetime. And with no moving parts, the maintenance and service costs can be kept to a minimum.

The Heatex production concept, the double sealing concept with gluing and a mechanically fold, ensures airtight heat exchangers having low cross-contamination and therefore supplying high indoor air quality.

Plate heat exchangers are certified according to Eurovent, AHRI, ILH and TüvSüd and most configurations comply with the Ecodesign Lot 6 requirements.

Heatex cross flow plate heat exchanger comply with hygiene standard EN 13379 and clean room standard DIN 1946 part-4.

CROSS FLOW PLATE HEAT EXCHANGER MODEL – H2

Model H2 is our most efficient Cross Flow plate heat exchanger. It combines low-weight with high differential pressure resistance and is able to reach typical dry temperature efficiencies above 80%. The efficiency is improved by its slim profiles and our latest patented plate design, creating high turbulence even at lower velocities while keeping pressure drop low.

Some of the H2’s features include:

  • ADVANCED SURFACE PATTERN Leads to increased turbulence and heat transfer.
  • SLIMLINE FRAMES
    Reduced frame profile enables the larger plate surface and increased efficiency.
  • OPTIMIZED BAR SPACERS
    Optimized towards lower pressure loss, higher efficiency and increased mechanical stability.
  • IMPROVED TIGHTNESS
    Lower cross contamination ensures improved indoor air quality.
  • COMPACT DESIGN
    Leads to an overall reduction in AHU design.
  • LOW PRESSURE LOSS
    Reduced fan power requirement, increasing overall AHU efficiency.
  • HIGH DIFFERENTIAL PRESSURE
    Allows heat exchanger implementation across a wide variety of challenging applications.
  • HIGH EFFICIENCY
    Increased system thermal performance.

 

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