EXERGY tube in tube heat exchangers
- High temperature, high pressure, low flow
- Multi-phase fluids & slurries
- High thermal stress
- Steam condensing
- Seal cooling
- Liquid/Gas
- Sampling
- WFI
- Pharma / Biotech
- Food / Beverages
- Chemical / Industry
- Aerospace / Defense
- Alternative Energy
- Fuel Cells
- Process Equipment
- Semiconductor
- Heat transfer rates to 100,000 BTU/hr (29 kW)
- Liquid flows to 10 GPM (38 LPM)
- Pressures up to 4,500 psi (310 bar)
- 316L SS, Hastelloy ®
- Inconel ®
- Titanium and other alloys
- NPT, tube stubs, or custom fitting
- Thick walled seamless tube
- Integrated threaded holes for mounting
- Highly resistant to thermal stress
- All welded construction
- Maintenance free
- Available with or without electropolish
- No risk of cross-contamination between fluids
- Sanitary fittings ASME BPE
- Material & process certifications included
- Fully drainable on product side
- Clean-in-place (CIP)
- No dead spots or crevices
- ASME BPE Compliant
Aseptconn is a official Exergy distributor partner
Exergy offers a comprehensive line of high-efficiency shell & tube and tube-in-tube heat exchangers made of 316L stainless steel, Hastelloy©, Inconel©, titanium and other alloys. Many standard models are available from stock or we can create a custom design. Let us know your requirements. We will evaluate them and recommend the optimum heat exchanger that is that meets your specifications, requirements and budget.
Design
The Exergy tube in tube heat exchangers consist of two tubes, one inner and one outer, coiled together. This unique, compact design eliminates thermal fatigue, increases efficiency and reduces the size. It is ideal for high temperature, high pressure and low-flow applications. The hygienic models are designed to meet the high quality requirements and hygienic standards of the pharmaceutical industry. All surfaces in contact with the product have a maximum surface finish of 20μin (0.5μm) Ra, and can be improved to 15μin (0.38μm) R a or better by optional electropolishing. The unique design eliminates the risk of cross-contamination between product and working fluids.