Low Temperature Mechanical Seal
For the development and optimization of these seals, Ekato first of all determines the temperature profile within the individual components by means of finite element analysis (FEA) that is based on the given operating and environmental conditions. After an experimental validation of the numerical model, reliable parameter studies can be carried out for the different operating and boundary conditions.
Special attention is paid not only to the seal rings and their materials and behavior in the hydrodynamic sealing gap. To maintain the sealing function, buffer fluids must also be chosen that satisfy the required properties with respect to lubrication and heat transfer at low temperatures and at the same that are compatible with process media. Even the elastomers for static sealing must retain their mobility which is taken into consideration during the stages of material selection and constructive design of the sealing area.
Once the design has been successfully optimized, then a verification process is carried out which examines the results with respect to temperatures and pressures by means of test runs on the mechanical seal test stand and under real operating conditions. The focus is on the temperature development of the seal surfaces, the temperature distribution within the entire mechanical seal and any potential leakage.
Hall 5.0 – D42
Facts for Decision Makers:
- seal optimization
- structured development
- reliable parameter studies