Pool Heating Plate Type Heat Exchangers

Standard Plate Heat Exchangers AISI 316 / AISI 316L

Atecpool presents a diverse selection of Plate Type Heat Exchangers, encompassing copper-brazed, semi-welded, and all-welded plate heat exchangers. Our expansive range caters to an array of needs, offering the optimal technical solution for every conceivable task. With connection sizes spanning from Ø15mm to Ø500mm and accommodating a liquid flow range of 50L/hour to 2000 m3/hour, Atecpool ensures comprehensive coverage.Plate Configuration The design of the inlet section ensures an impeccable distribution of liquids across the heating surface. Enhanced by grooves, the expanded inlet part averts the formation of “dead spots,” which could potentially foster bacterial growth within the plate heat exchanger. By integrating grooves in the inlet, we establish a robust inlet segment with minimal contact points.Leakage prevention is prioritized through the construction of inlet parts equipped with a dedicated leakage drain zone, adhering to AAA specifications.Ingeniously engineered, our heat transfer plates feature a gap between plates of up to 11mm, varying depending on the plate type. This innovative design incorporates horizontal waves within the plate pressing, which eliminates “plate contact points” along the flow direction. As a result, the flow channels remain unobstructed, allowing the medium and particles to move freely, ensuring optimal flow dynamics.


  • High operation safety
  • Exact energy-transfer
  • Low running costs
  • Energy saving
  • Environmentally-friendly


  • The plates and plate patterns are constructed to maintain a high thermal efficiency with a low pressure drop
  • There are two pattern designs available with different pressing angles giving respectively high/low turbulence flow, dependant on the given selection
  • The inlet channels allow for maximum strength in the inlet area, whilst maintaining minimal contact points, reducing blockage at the flow distribution zone
  • The inlet design ensures even distribution of the liquids across the heating surface
  • The gasket is placed in a dedicated retaining gasket groove. This secures the elasticity of the gasket even after a long time of compression