ASTM A312 TP316L Helical Spiral Serrated Finned Tube With SS316L Fins For Heat Exchanger

ASTM A312 TP316L Helical Spiral Serrated Finned Tube With SS316L Fins For Heat Exchanger

ASTM A312 TP316L Helical Spiral Serrated Finned Tube with SS316L Fins is a specialized type of heat exchanger tube designed for enhanced heat transfer efficiency in demanding environments.

Here's a detailed breakdown of its components and features:

1. Base Tube – ASTM A312 TP316L

(1). Chemical Composition of ASTM A312 TP316L (Weight %)

Notes:

Low carbon (≤0.03%) prevents carbide precipitation during welding (prevents sensitization).

Molybdenum (2-3%) enhances corrosion resistance, especially against chlorides and acids.

(2). Mechanical Properties of ASTM A312 TP316L

Notes:

Good ductility (≥35% elongation) ensures formability and weldability.

Lower yield strength compared to carbon steel but excellent toughness.

Annealed condition provides optimal corrosion resistance.

(3). Key Takeaways

• TP316L is ideal for corrosive & high-temperature applications (e.g., chemical processing, marine, heat exchangers).
• Low carbon makes it suitable for welding without post-weld heat treatment.
• Molybdenum boosts resistance to pitting/crevice corrosion.

2. Fins – SS316L (Stainless Steel 316L)

The fins are made of the same material as the base tube (SS316L) for compatibility and corrosion resistance.

Helical Spiral Serrated Design:

Helical Spiral: Fins are wound in a continuous spiral around the tube, increasing surface area for better heat transfer.

Serrated: Fins have notched (serrated) edges, further enhancing turbulence and heat exchange efficiency.

3. Key Features

• Enhanced Heat Transfer: The serrated spiral fins disrupt laminar flow, improving thermal performance.
• Corrosion Resistance: Ideal for aggressive environments (chemical processing, marine, oil & gas).
• High-Temperature Suitability: Maintains strength and oxidation resistance at elevated temperatures.

4. Advantages Over Plain Tubes

• Higher heat transfer efficiency in compact spaces.
• Reduced fouling due to turbulent flow induced by serrations.
• Long service life due to SS316L’s corrosion resistance.

Applications of ASTM A312 TP316L Helical Spiral Serrated Finned Tube with SS316L Fins

This specialized finned tube is designed for high-efficiency heat transfer in corrosive and high-temperature environments. Its SS316L material (both tube and fins) ensures excellent resistance to oxidation, chlorides, acids, and thermal stress, making it suitable for demanding industrial applications.

1. Petrochemical & Oil & Gas Industry

• Heat exchangers & condensers in refineries.
• Gas cooling systems (e.g., natural gas processing).
• Waste heat recovery units (e.g., flue gas heat exchangers).
• Offshore platforms (seawater-resistant cooling systems).

Why?

Resists sulfuric acid, chlorides, and sour gas (H₂S) corrosion.

Handles high-pressure steam and hydrocarbons.

2. Power Generation (Thermal & Nuclear Plants)

• Boiler tubes & economizers (heat recovery from exhaust gases).
• Condensers & feedwater heaters.
• Nuclear reactor cooling systems (secondary loops).

Why?

High thermal conductivity with serrated fins improves efficiency.

Resists scaling and oxidation at high temperatures.

3. Chemical & Pharmaceutical Processing

• Acid cooling systems (e.g., sulfuric, hydrochloric acid).
• Solvent condensers & evaporators.
• Reactor cooling jackets.

Why?

SS316L’s Mo content (2-3%) resists pitting from aggressive chemicals.

Low carbon prevents carbide precipitation during welding.

4. Marine & Desalination Systems

• Seawater-cooled condensers.
• Desalination plant heat exchangers.
• Shipboard cooling systems.

Why?

Excellent chloride resistance (prevents pitting/crevice corrosion).

Helical spiral fins reduce fouling from salt deposits.

5. Food & Beverage Industry

• Pasteurizers & sterilizers.
• High-temperature processing heat exchangers.

Why?

Sanitary SS316L surface (easy to clean, non-reactive).

Corrosion-resistant against acidic/alkaline food products.

6. HVAC & Refrigeration

• Industrial chillers & refrigerant condensers.
• Waste heat utilization in district heating.

Why?

Serrated fins enhance turbulence, improving heat transfer.

Resists Freon, ammonia, and brine corrosion.

7. Waste Incineration & Exhaust Gas Treatment

• Flue gas heat recovery systems.
• Air preheaters & scrubber coolers.

Why?

Withstands acidic exhaust gases (SOx, NOx, HCl).

High-temperature durability (up to ~900°C with proper grade).