A Kármán vortex street is a fluid dynamic phenomenon that occurs when a fluid (such as air or water) flows around a solid object (such as a thermowell in a pipe) under harsh conditions (such as high pressure / velocity). The fluid separates from the surface of the thermowell and creates vortices downstream. These vortices cause vortex-induced vibrations (VIVs), which can damage or even destroy the thermowell if they are too severe. They can also significantly affect the stress on the thermowell.
iTHERM TwistWell thermowell TT151 (metric) / TT152 (imperial)
Simulation: comparison standard thermowell (left side) to iTHERM TwistWell (right side)
iTHERM TwistWell available for iTHERM ModuLine TM151 (metric) / TM152 (imperial)
iTHERM TwistWell thermowell TT151 (metric) / TT152 (imperial)
Simulation: comparison standard thermowell (left side) to iTHERM TwistWell (right side)
iTHERM TwistWell available for iTHERM ModuLine TM151 (metric) / TM152 (imperial)
Benefits
- > 90% reduction of vortex-induced vibrations
- Static loads can be calculated acc. ASME PTC 19.3 TW
- Easy installation for all nozzle sizes starting from 1” / DN25
- Effectiveness of the design verified by an independent 3rd party agency
Our barstock thermowell with patented helical iTHERM TwistWell design drastically prevents vortices alongside the complete length of the thermowell stem and reliefs the thermowell of the high dynamic stresses. It grants a long immersion into the process and standard diameters for an optimal measurement result. It results in drastic mitigation of vortex shedding effects and makes it the perfect alternative for process conditions where standard thermowells fail due to vortex-induced vibrations!
