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Glass Coated Heat Exchanger

GLASS COATED HEAT EXCHANGER

METROFLEX Group develops, fabricates and supplies a range of proprietary plate-type and tubular heat exchangers coated with glass for handling highly corrosive fluids. The corrosion-resistant glass layers are applied on a metallic substrate (plate or tube) in order to impact mechanical strength to the heat transfer surfaces, and thereby prevent tube breakage during operation or during water washing.

Our glass-coated heat exchangers are engineered for applications where corrosion resistance, chemical inertness, and high thermal efficiency are critical. By combining the durability of traditional heat exchangers with a special glass lining, these units are ideal for industries dealing with highly corrosive substances, such as acids, alkalis, and aggressive chemicals, ensuring long-lasting performance and minimal maintenance.

GLASS COATED HEAT EXCHANGER

METROFLEX Group develops, fabricates and supplies a range of proprietary plate-type and tubular heat exchangers coated with glass for handling highly corrosive fluids. The corrosion-resistant glass layers are applied on a metallic substrate (plate or tube) in order to impact mechanical strength to the heat transfer surfaces, and thereby prevent tube breakage during operation or during water washing.

Our glass-coated heat exchangers are engineered for applications where corrosion resistance, chemical inertness, and high thermal efficiency are critical. By combining the durability of traditional heat exchangers with a special glass lining, these units are ideal for industries dealing with highly corrosive substances, such as acids, alkalis, and aggressive chemicals, ensuring long-lasting performance and minimal maintenance.

Product Features:

1. Corrosion Resistance:

The glass coating provides a protective barrier between the metal components and the fluid, preventing corrosion even when handling highly acidic or corrosive substances.

2. Chemical Inertness:

Glass is chemically inert, making it an ideal material for processes that involve aggressive chemicals, ensuring no contamination or chemical reaction with the heat exchanger.

3. High Thermal Conductivity:

The glass coating, while providing protection, still allows efficient heat transfer, making these exchangers both safe and effective for handling heat-sensitive and aggressive fluids.

4. Durability:

Resistant to thermal shock, the glass coating ensures that the exchanger can handle rapid temperature changes without cracking or compromising performance.

5. Maintenance-Free:

The non-porous glass surface prevents scaling and fouling, reducing the need for frequent cleaning and prolonging the life of the heat exchanger.