Calentadores de proceso

About Process Heaters

Key Features of Process Heaters

• Custom-designed heater coils made from SS304, SS316, SS321, Alloy 600, 625, 800, 825, Titanium, and Hastelloy grades.
• Pressure vessels are certified to ASME Section VIII Division 1 & 2 with ‘U’ stamp approval.
• ATEX Ex’d flame-proof certified for hazardous Zone 1 installations (IIC, T6, IP66).
• Heaters can operate in the temperature range of -40°C to 1600°C.
• Heater power ratings are available from 1 kW to 10000 kW and voltage options are available up to 690V.
• Direct seal welded, bite coupling, and standpipe connection methods can be used for assembling elements into flanges.
• Mineral-insulated tubular heating elements are filled with high-purity MgO for excellent heat transfer capabilities.
• Integrated thyristor (SCR) control panels with multi-bank configuration provide precise power control options.
• Rod type and segmental baffle cage assemblies provide even heat distribution.
• All models are compact in size with maximum element length up to 10,500 mm.
• Multiple heating configurations: direct immersion, indirect immersion, L-shaped, and duct-mounted designs.
• Infrared radiant heaters and ceramic heating solutions for specialized applications.
• Over the side immersion heaters and screw plug heaters are customized for specialized tank heating applications.
• ATEX Ex’d (Flame proof) / PED/ASME U stamp / any other based on regional requirements.

Advantages of Process Heaters

• Zero emissions and  environment safe operation, compared to the emissions associated with a fossil fuel heating system.
• Immediate temperature response with precise control accuracy within ±1°C.
• No risk of combustion hazards makes these units perfect for installations in hazardous locations.
• The need for minimal maintenance means that fouling and scaling issues are avoided.
• The modular design of these units allows for simple and easy replacement and upgrading of modules without requiring the complete shutdown of the unit.
• These units are also highly space-efficient as they take up significantly less area compared to a shell-and-tube heat exchanger.
• The added built-in protection against overheating and earth leakage adds to the operational safety of the equipment.
• Energy savings and reduced downtime lead to a total cost of ownership that is less than other units in this class.
• A consistent heat distribution pattern results in uniform heating of process fluids.
• The devices are designed for use in high-pressure & corrosive applications meeting the requirements of ASME standards.
• The PLC that has been integrated into the system lets the user monitor & control the unit from a distance.
• Fast installation and commissioning are achieved with minimal civil work needed.
• These units offer scalability in terms of power capacity through the use of multi-stage heating configurations.
• There is no risk of thermal shock occurring to the heating elements.
• These units have been manufactured in compliance with both international safety and quality standards, providing reliable performance for years to come.

Uses of Process Heaters

• Continuous Catalytic Regeneration Heater Applications (CCR Heaters) for Aromatics Production (operating temperature range 495 – 535°C)
• Isomerization Process Heaters for Octane Number Improvements at Refineries
• Preheater and Superheater Applications for Fuel Gases To Be Used With Turbines
• TEG (Triethylene Glycol) reboiler and regeneration heaters for gas dehydration.
• Molecular sieve regenerator heaters for air separation units (ASU).
• Sulphur Recovery Unit (SRU) heaters in petrochemical complexes.
• Radiant process heaters for catalyst reduction and calcination processes.
• Flare KO drum heating with immersion and circulation heater configurations.
• Steam generation and superheating systems for power plants.
• Crude oil and heavy oil heating in storage tanks and pipelines.
• Amine reboilers for gas treating applications.
• Hot oil circulation systems for process technology heaters.
• Heat tracing solutions for freeze protection and viscosity control.
• ESP hopper heaters and duct heaters for air handling systems.
• Reactor startup and catalyst circulation heating.
• Cryogenic Defrosting and Thawing Heaters.
• Turbine and Compressor Lube Oil Console Heaters.
• LNG and Industrial Gas Vaporizer Heaters
• Marine, nuclear, pharmaceutical, and R&D heating applications.