Frame Color Customized PHE Unit With Carbon Steel Tightening Bolts And Nuts

The Plate Heat Exchanger (PHE) is a highly efficient, compact, and versatile heat transfer device designed for various industrial and commercial applications. It consists of multiple thin, corrugated metal plates stacked together to create channels for hot and cold fluids to flow through, facilitating optimal heat transfer. The unique plate design maximizes heat exchange efficiency while maintaining a small footprint, making it an excellent alternative to traditional shell-and-tube heat exchangers.

Technical Features & Advantages

Optimized Plate Design for Maximum Efficiency

• Corrugated plates create turbulence, enhancing heat transfer and reducing fouling.

• Thin plate construction (0.4–1.0 mm) ensures fast and efficient thermal exchange.

• Multiple flow configurations (parallel, counterflow, crossflow) for process optimization.

Advanced Gasket Technology (For Gasketed PHEs)

• Clip-on or glued gaskets for easy replacement and long service life.

• Material options: EPDM, NBR, Viton for compatibility with different fluids.

Durable Materials for Extreme Conditions

• Stainless Steel (SS304, SS316L), Titanium, Hastelloy, Nickel Alloys available.

• Handles aggressive chemicals, seawater, and high-pressure applications.

Modular & Scalable Configuration

• Plates can be added or removed to adjust heat exchange capacity.

• Ideal for expanding industrial operations with changing heat loads.

Industry Applications

Working Principle

The Plate Heat Exchanger operates by allowing two separate fluids to flow through alternating channels between the plates. The hot fluid transfers heat to the cold fluid through the thin metal plates, without any direct contact between the two liquids. The high turbulence created by the corrugated plates enhances heat transfer efficiency while minimizing fouling and scaling.

Heat Transfer Process:

1. Hot and cold fluids enter through separate inlet ports.

2. Fluids flow through alternating narrow channels between the plates.

3. Heat is transferred through the metal plates from the hot fluid to the cold fluid.

4. Fluids exit through separate outlet ports, maintaining efficient thermal separation.

Why Choose Our Plate Heat Exchangers?

✔ Premium Quality Materials – High-grade stainless steel, titanium, and Hastelloy available.

✔ Custom-Built Solutions – Designed to match your process requirements.

✔ Energy-Efficient Design – Optimized plate patterns maximize heat transfer efficiency.

✔ Global Standards Compliance – CE, ASME, ISO 9001 certified for industrial use.

✔ Expert Technical Support – Dedicated assistance for installation and troubleshooting.

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