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Shell and Tube Heat Exchanger Manufacturer in Lebanon

Material of Construction (MOC) of Shell and Tube Heat Exchanger

Shell and Tube Heat Exchanger (STHE) MOC depends on factors like:

  • Fluid compatibility (corrosiveness, toxicity)
  • Temperature & pressure requirements
  • Cost & durability considerations

Common Materials Used in STHE Components

1. Shell Material

  • Carbon Steel (CS) – Low cost, good strength (e.g., ASTM A516 Gr.70 for moderate conditions).
  • Stainless Steel (SS 304, SS 316) – Better corrosion resistance (for acidic/chloride environments).
  • Duplex Stainless Steel (2205, 2507) – Higher strength & chloride resistance (e.g., seawater cooling).

Nickel Alloys (Inconel 625, Hastelloy C276) – Extreme corrosion/heat resistance (chemical processing

  • Titanium – Excellent for seawater, chlorides, and aggressive acids (desalination plants).
  • Clad Materials – Carbon steel lined with corrosion-resistant alloys (cost-effective for high-pressure services).

2. Tube Material

  • Stainless Steel (SS 304, 316, 316L) – Most common for general corrosive fluids.
  • Copper & Copper Alloys (Admiralty Brass, Cupronickel 90/10, 70/30) – Good for freshwater/condenser applications.
  • Titanium – Best for seawater, chlorides, and highly corrosive media.
  • Nickel Alloys (Incoloy 825, Monel 400) – Resistant to acids (e.g., sulfuric, hydrochloric).
  • Carbon Steel – Used for non-corrosive, high-pressure steam/oil services.

3. Tube Sheet Material

  • Typically, same as tubes to avoid galvanic corrosion.
  • Carbon Steel with Cladding (SS, Titanium overlay) for cost savings.

4. Baffles & Supports

  • Usually carbon steel (if fluid is non-corrosive).
  • Stainless steel for corrosive environments.

5. Gaskets & Seals

  • Graphite (high temp)
  • PTFE (Teflon) (chemical resistance)
  • Spiral Wound (SS + Graphite) for high-pressure services.

Selection Criteria

  • Corrosion Resistance → SS, Titanium, Nickel alloys.
  • High Pressure/Temperature → Carbon steel (with protective lining if needed).
  • Cost-Effectiveness → CS for non-corrosive, SS for moderate corrosion.

Industry-Specific Examples

  • Oil & Gas: Carbon steel (shell) + SS/carbon steel (tubes).
  • Chemical Plants: Hastelloy/SS for aggressive acids.
  • Power Plants: CS tubes for steam, titanium for condenser cooling.
  • Desalination: Titanium tubes (seawater resistance).

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