Customizable Plate Heat Exchanger Unit for different models and industry

A Plate Heat Exchanger (PHE) is an advanced and highly efficient heat transfer device designed for industrial and commercial applications. It consists of multiple corrugated metal plates that form alternating channels for hot and cold fluids to pass through, enabling rapid and efficient heat exchange. Due to its compact size, excellent heat transfer performance, and ease of maintenance, it is widely used across industries such as HVAC, chemical processing, food & beverage, power generation, marine, and pharmaceuticals.

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.

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

Installation & Maintenance

Installation Guidelines:

• Ensure proper alignment of plates and gaskets during assembly.

• Install on a stable, vibration-free surface to prevent damage.

• Use correct inlet/outlet piping to maintain optimal fluid distribution.

• Regularly check pressure and temperature settings to avoid overloading.

 Maintenance Tips:

• Periodically inspect and replace gaskets if worn or damaged.

• Clean plates regularly using CIP (Clean-in-Place) methods to prevent fouling.

• Check for any leaks or pressure drops, which may indicate a need for servicing.

• Store spare gaskets and plates for quick replacements when needed.

Ordering & Procurement Information

How to Order:

To provide the best solution for your needs, please share the following details when placing an inquiry:

1. Fluid Types – What hot and cold fluids will be used?

2. Temperature Range – Inlet & outlet temperatures for both fluids.

3. Flow Rate – Required flow rates (m³/h or gpm).

4. Operating Pressure – Maximum working pressure.

5. Material Preferences – Preferred plate and gasket materials.

6. Application Industry – HVAC, food processing, power plants, etc.

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