Complete Plate Heat Exchanger Unit Design And Spare Parts Supply For Various Models

The Plate Heat Exchanger (PHE) is an advanced heat transfer device designed for high-efficiency thermal exchange between fluids. It consists of a series of corrugated metal plates stacked together, forming separate channels for hot and cold fluids. The plates are sealed with gaskets or permanently brazed/welded, ensuring leak-proof operation. PHEs are widely used in HVAC, power plants, chemical processing, food & beverage, pharmaceuticals, and marine industries.

✅ Highly efficient heat transfer (Up to 90%)

✅ Compact & modular design – Easy to scale by adding/removing plates

✅ Energy-efficient & cost-effective – Reduces operational costs

✅ Easy maintenance & cleaning – Plates can be easily removed (for gasketed PHEs)

✅ Customizable for specific industry needs – Various plate materials & gasket options available

Types of Plate Heat Exchangers

Technical Specifications

Key Features & Advantages

High Efficiency & Performance

• Up to 90% heat transfer efficiency, significantly reducing energy consumption.

• Corrugated plate design increases turbulence, enhancing heat exchange rates.

Space-Saving & Lightweight

• Compact design reduces installation footprint compared to shell-and-tube exchangers.

• Lightweight construction allows for easy installation and handling.

Easy Maintenance & Cleaning

• Detachable plates allow for easy cleaning, inspection, and gasket replacement.

• Less fouling & clogging due to high turbulence, reducing downtime.

Customizable Design

• Wide selection of plate and gasket materials to suit different working conditions.

• Flexible configurations available, including gasketed, brazed, and welded PHEs.

Durable & Long-Lasting

• Corrosion-resistant materials such as stainless steel, titanium, and Hastelloy ensure long service life.

• Designed to withstand high pressure and temperature in industrial environments.

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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