This thermowell designed according to DIN 43772 guarantees a high resistance to most industrial process environments. It is made from pipe or tube and is available in a wide range of diameters and materials. A specially designed thermowell tip ensures fast response times for a more efficient process control. Oversheaths in PTFE or tantalum can withstand extremely corrosive process conditions. It is offered with a variety of process connections: flanges, threads, weld-in or compression fittings.
Protects the temperature sensor against physical and chemical stress
High robustness for challenging process conditions
Pressure range: up to 100 bar (1450 psi)
For use in pipes, containers or tanks
Improved ease of maintenance (sensor replacement without process shutdown) and recalibration of the measuring point
Benefits
Modular configuration according to DIN 43772
iTHERM QuickNeck: cost and time savings thanks to simple, tool-free recalibration of the insert
Extension, immersion length and total length can be chosen according to process requirements
Wide choice of dimensions, materials and process connections available
By integrating a thermometer with iTHERM TwistWell thermowell with advanced helical design, operators can achieve superior steam quality and significantly reduce vortex-induced vibrations.
Ensure data center uptime and reduce energy costs by using precise temperature devices with robust 3- or 4-wire RTDs and smart temperature transmitters in liquid cooling applications.
Endress+Hauser’s iTHERM SurfaceLine TM611 non-invasive temperature measurement performs comparably to traditional industrial thermometers with an elegant mechanical innovation
To meet the challenges of temperature monitoring in such critical processes, a thermowell design has been developed that responds to process changes up to five times faster than standard designs.
The Ziegler-Natta process uses hazardous chemicals like titanium tetrachloride. Precise temperature measurement is crucial to prevent runaway reactions and ensure safety and efficiency.
