Ovaco

Spiral Tube Heat Exchangers

Spiral Tube Heat Exchangers

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Why Choose Ovaco Spiral Tube Heat Exchangers?


Expert Staff: Offers engineering support for your special projects.

Comprehensive Service: Turnkey solutions from design to field installation.

High Technology: Superior energy efficiency with modern production processes.


Ovaco Spiral Tube Heat Exchangers offer a compact, durable and highly efficient solution for your industrial needs. Contact us for more information or to get a quote for a custom project!

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Ovaco offers innovative solutions for your industrial heat transfer needs with compact and highly efficient Spiral Tube Heat Exchangers. These heat exchangers are designed to deliver high performance in confined spaces and withstand harsh conditions.


Featured Features


Compact Design: Thanks to its spiral pipe structure, it provides maximum performance with minimum space utilization.

High Efficiency: Superior heat transfer with longer flow paths and turbulent flow structure.

Self-Cleaning Feature: Spiral fluid design minimizes sediment and blockage formation.

Durability: Robust design that adapts to harsh operating conditions.

Areas of Use



Chemical Industry: High viscosity liquids and corrosion risk environments.

Petrochemical Plants: Condensation and evaporation processes.

Food and Beverage: Can be designed with materials that comply with hygienic standards.

Power Plants: Condensers and heat recovery systems.

Marine: Compact and durable solutions for harsh marine conditions.

Material Options


Stainless Steel: Corrosion resistant, compliant with hygiene requirements.

Carbon Steel: A durable and economical option.

Titanium and Nickel Alloys: Excellent for corrosive environments and seawater applications.

Copper: Superior efficiency with high thermal conductivity.

International Production Standards



ASME Sec. VIII, Div. 1: Design standards for pressure vessels.

TEMA: Global standards for heat exchanger design and manufacturing.

ISO 9001: Quality management system certification.

Design and Calculation Process


Optimized Heat Transfer: Thanks to its spiral tube structure, it is designed according to the temperature and pressure characteristics of the fluid.

Pressure Resistance: Structure resistant to high pressure conditions.

Corrosion Prevention: Minimized maintenance through material selection.

Quality Control Processes



Raw Material Certification: All materials are selected in accordance with international standards.

Non-Destructive Tests: Product reliability with ultrasonic, radiographic and hydrostatic tests.

Performance Tests: Maximum energy transfer and tightness tests.