Shell and Tube Heat Exchanger
Our Shell and Tube Heat Exchanger is engineered for superior heat transfer performance, widely used in industrial and laboratory settings for cooling, heating, condensation, and evaporation. This highly efficient glass heat exchanger is designed with corrosion-resistant materials like borosilicate glass and PTFE, ensuring long-term durability and reliability
Key Features of AAROHI SCIENTIFIC Shell and Tube Heat Exchangers:
- Corrosion-Resistant Construction: Constructed from borosilicate glass 3.3 and PTFE, ensuring high resistance to corrosive environments and chemicals. A cost-effective alternative to expensive materials like graphite, Hastelloy, copper, titanium, tantalum, and other exotic metals.
- High-Efficiency Heat Transfer: The smooth glass surface minimizes fouling, providing enhanced heat transfer efficiency.
- Versatile Installation: Industrial Heat Exchanger are available in both vertical and horizontal orientations, offering flexibility for various industrial setups.
- Easy Maintenance: Features a modular design with easily replaceable tubes, simplifying cleaning and maintenance.
- Lightweight Design: Reduces installation costs and makes handling more manageable.
- Wide Range of Applications: Ideal for chemical, pharmaceutical, and food processing industries, providing efficient solutions for heating, cooling, and condensation.
- Customizable Sizes: Available in multiple sizes to cater to different heat transfer area (HTA) requirements.
Advantages Over Coil-Type Heat Exchangers:
Why Choose Shell and Tube Heat Exchangers Over Coil Type?
- Superior Heat Transfer: Our Shell and Tube heat exchangers offer up to three times higher heat transfer efficiency than conventional coil-type exchangers.
- Minimal Pressure Drop: With minimal pressure loss compared to coil-type heat exchangers, our units maintain consistent performance.
- Ideal for Large-Scale Operations: Best suited for applications that demand large heat transfer areas (HTA) in a compact design.
Robust Construction for Optimal Performance:
- Glass Tubes and PTFE Sealing: Our exchangers use individually sealed glass tubes fitted into a PTFE tube sheet, with a ferrule-type sealing mechanism for easy tube replacement and cleaning.
- Strategic Baffle Placement: Baffles on the shell side increase turbulence, enhancing the heat transfer rate. For a detailed view of the construction, refer to the provided diagram.
- Durable Materials: Constructed using SCHOTT DURAN borosilicate glass for superior chemical resistance, coupled with PTFE for non-reactivity and longevity.
TYPES:
Table
Dimensional Specifications of Shell and Tube Heat Exchanger:
When selecting a shell and tube heat exchanger, understanding its dimensional specifications is crucial for optimal performance. The size and configuration depend on factors like heat transfer area, flow rates, and application requirements.
At AAROHI SCIENTIFIC, we offer customized shell and tube heat exchangers designed to meet your unique heat transfer and application requirements. Whether you need specific material selection, custom sizing, or special configurations, our team is ready to assist with tailored solutions.
Key dimensions include shell diameter, tube bundle diameter, tube length, tube pitch, and baffle spacing. These specifications determine the heat transfer efficiency, pressure drop, and overall system compatibility. Our designs adhere to international standards, ensuring reliability in chemical, pharmaceutical, and industrial applications.
Table
Wide Range of Applications:
- Chemical Processing: Ideal for high-temperature chemical reactions.
- Pharmaceutical: Perfect for processes requiring strict adherence to GMP (Good Manufacturing Practice).
- Food & Beverage: Used for cooling and heating applications in food production.
- Research & Development: Commonly used in laboratories for various testing applications.
Performance Characteristics of Shell and Tube Heat Exchangers:
- Temperature Range: Efficient operation in a temperature range of -40°C to 150°C.
- Vacuum Handling: Designed to handle full vacuum on both shell and tube sides, ensuring optimal performance in diverse applications.
- Energy-Efficient Design: Engineered for minimal energy consumption while maintaining maximum heat transfer efficiency.
Table
Table
Contact our experts today to get a customized solution for your heat transfer needs. Request a Quote or call us at +91- 7987071180.