Skip to main content

Gasketed plate heat exchangers
GASKETED PLATE ITEX

ITEX gasketed plate heat exchangers are particularly well suited to exchanges between two fluids, and therefore to a wide range of applications.

Water flow rate: up to 800 m3/h
Plate material: 304 stainless steel - 316L stainless steel - 254 SMO (except 10TEE990+) - titanium
Gasket material: NBR - EPDM Prx - FPM
Frame material: carbon steel - stainless steel

18 models available
Liquid flow rates: up to 800 m3/h
Pressure: up to 25 bar

ITEX gasketed plate heat exchangers are particularly well suited to exchanges between two fluids, and therefore to a wide range of applications:

  • Heating sub-stations
  • Domestic water heating
  • Swimming pool heating
  • Buffer on heat pump
  • Recovery from corrosive discharge
  • Geothermal energy
  • Oil refrigeration
  • Industrial processes
  • Excellent transfer coefficient, reduced surface area
  • Ultra-slim: takes up little space
  • Easy to install
  • Easy to maintain
  • Very low pinch-point temperature possible
  • High corrosion resistance
  • Low-capacity circuits
  • Plates can be added to meet changes in capacity demand
  • Unit can be cleaned in-place using a circulation system (NEP or CIP)
  • Max. differential pressure = max. operating pressure

18 models available
Liquid flow rates: up to 800 m3/h
Pressure: up to 25 bar

ITEX gasketed plate heat exchangers are particularly well suited to exchanges between two fluids, and therefore to a wide range of applications:

  • Heating sub-stations
  • Domestic water heating
  • Swimming pool heating
  • Buffer on heat pump
  • Recovery from corrosive discharge
  • Geothermal energy
  • Oil refrigeration
  • Industrial processes
  • Excellent transfer coefficient, reduced surface area
  • Ultra-slim: takes up little space
  • Easy to install
  • Easy to maintain
  • Very low pinch-point temperature possible
  • High corrosion resistance
  • Low-capacity circuits
  • Plates can be added to meet changes in capacity demand
  • Unit can be cleaned in-place using a circulation system (NEP or CIP)
  • Max. differential pressure = max. operating pressure
Documents

Commercial brochure


Works well with