Semi-Welded Plate Heat Exchanger

High reliability, Superior Efficiency!

Tanpera Double Walled Plate Heat Exchangers are designed for critical applications where mixing of fluids is absolutely undesirable. The special gap between the two plates ensures maximum safety and durability.

Plate packs are formed by laser welding two separate plates flat on top of each other. This heat exchanger model, which is assembled by placing a gasket between each plate package, provides the advantages of the traditional type plate gasketed heat exchanger and can also be easily used in applications where sealing plays a major role.

 

Description

What is a Double Walled Plate Heat Exchanger?

Tanpera Double Walled Plate Heat Exchangers are used extensively in applications where two fluids must never mix. The double-walled design consists of a pair of plates and thanks to the space between these pairs, fluids are directed directly to the external environment in case of possible plate punctures. This innovative structure minimizes risks and increases reliability. Preferred in critical industries such as chemicals, pharmaceuticals and food, these heat exchangers offer high performance at industrial standards.

Working Principle

The working principle of Tanpera Double Walled Plate Heat Exchangers is based on ensuring safety with its double-layer plate structure.

  • Both fluids circulate on different sides of pairs of plates that are completely isolated from each other.
  • The gap between the plates ensures that in case of possible leaks, the fluid is directed to the external environment and not to the other fluid.
  • This design offers reliable heat transfer even under high pressure and temperature conditions.

Advantages

  • High Reliability: Completely eliminates the risk of mixing fluids in possible plate punctures.
  • Durability: The double-walled design ensures long-lasting use even in harsh conditions.
  • Easy Maintenance: The source of damage is quickly identified, reducing maintenance times.
  • High Performance: Effective heat transfer and energy efficiency.
  • Wide Range of Material Options: Possibility of production in materials such as stainless steel and titanium according to application needs.

Technical Specifications

Technical Specifications

  • Maximum Pressure Resistance: 16 bar
  • Temperature Range: -10°C to +180°C
  • Plate Material: Stainless steel (AISI 316), Titanium
  • Gasket Material: EPDM, NBR, VITON
  • Dimensions Modular design suitable for various capacities

Product Video

Areas of Use

Application Areas

  • Chemical Industry: Provides temperature control and safe heat transfer of chemical substances.
  • Pharmaceutical Industry: Used in pharmaceutical production to prevent the risk of mixing of fluids.
  • Food Industry: Used in hygienic applications, in processes where temperature control and fluid separation are critical.
  • Energy Sector: Provides safe heat transfer in energy recovery systems.
  • Petrochemicals: Used in safe heating and cooling processes of aggressive and corrosive fluids.

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