GARG INDIA's industrial borosilicate glass heat exchangers represent precision-engineered solutions for critical heat transfer applications where chemical compatibility and thermal...

GARG INDIA's industrial borosilicate glass heat exchangers represent precision-engineered solutions for critical heat transfer applications where chemical compatibility and thermal efficiency are paramount. Manufactured in Maharashtra, India with ISO 9001:2008 certification, these units feature precision-fused parallel coils within a durable glass shell that maximizes heat transfer surface area while minimizing fouling tendencies. The borosilicate glass construction provides exceptional resistance to thermal shock and chemical corrosion, ensuring long-term reliability in handling aggressive media. These heat exchangers are specifically designed for gas cooling, liquid cooling, and vapor condensation applications, with maximum pressure ratings of 2.7 bar for coolant and 3.5 bar for steam applications, providing operational safety across diverse process conditions.

These glass heat exchangers serve essential functions across chemical processing, pharmaceutical manufacturing, and research sectors. Chemical producers utilize them for handling corrosive streams in acid production, halogen processing, and specialty chemical synthesis where metallic exchangers would fail. Pharmaceutical manufacturers rely on their contamination-free operation for active pharmaceutical ingredient production, solvent recovery, and purification processes. Research institutions and pilot plants benefit from the transparent construction for process observation during development and scale-up studies. The visibility into the heat transfer process allows operators to monitor flow patterns and detect issues early, making these units indispensable for industries prioritizing process integrity and product purity.

The business value of these heat exchangers lies in their operational reliability, reduced maintenance requirements, and long-term cost efficiency. Their borosilicate glass construction eliminates corrosion concerns that plague metallic alternatives, significantly reducing replacement costs and downtime. The smooth glass surfaces resist scaling and fouling, maintaining consistent heat transfer coefficients over extended operational periods. The design allows for series mounting to increase surface area and adapt to varying process demands without compromising system integrity. Compatibility with different vessel types and stirrer configurations adds installation flexibility, while the standardized connections ensure easy integration into existing process lines. These attributes combine to deliver a heat transfer solution that protects product quality while minimizing operational expenses.

Key Features:
- Constructed from premium borosilicate glass offering exceptional chemical resistance and thermal shock tolerance.
- Precision-fused parallel coil design within a glass shell for optimal heat transfer efficiency and minimal fouling.
- Maximum operating pressures of 2.7 bar for coolant systems and 3.5 bar for steam applications.
- Standard 25 DN connections for direct integration with distillation systems and process pipelines.
- Robust construction suitable for series mounting to increase heat transfer surface area as needed.

Benefits:
- Excellent corrosion resistance ensures long service life even with aggressive chemicals and acids.
- High thermal efficiency reduces energy consumption and improves process economics.
- Smooth glass surfaces minimize fouling and scaling, maintaining consistent performance over time.
- Transparent construction allows visual monitoring of processes for quality control and troubleshooting.
- Reliable operation with minimal maintenance requirements reduces total cost of ownership.