A diaphragm seal system in a vacuum process must master a significant challenge ? it must deliver a trusted measuring result, even though the pressure drops and the temperature rises at the same time. The exemplory case of a chemical company producing phthalic anhydride (PA) shows that it is in no way self-evident that this requirement can be met on a consistent basis.
PA is primarily used as a plasticiser for plastics. However, Wild is also found in the production of synthetic resins and dyes. The plant operator obtains this compound via the catalytic oxidation of o-xylene in the gas phase, accompanied by vacuum pressure distillation process.
Critical phase for pressure measurement
In this technique, the critical phase for pressure measurement occurs in the distillation column. There, the process temperature can rise to a lot more than 230 �C as the pressure drops to 100 mbar abs. With Revealing of contrary action, the traditional installed measurement technology reaches its performance limit relatively quickly, that your aforementioned manufacturer was forced to find out ? all instrumentation showed a measurement deviation outside the defined tolerance after only fourteen days.
Diaphragm seal system adapted in every elements to the vacuum process
The diaphragm seal system is tailored exactly to the conditions of the vacuum process and tested under application conditions.
Consequently, the company approached WIKA with the request for a measuring solution that could also fulfil its task with the required accuracy in the long term beneath the conditions described. WIKA then drew on its in-depth expertise to design a diaphragm seal system for the vacuum process, consisting of a process transmitter (model IPT-20), a flange-type diaphragm seal with flush diaphragm (model 990.27) and a capillary.
All elements of this measuring system were selected specifically for the application. Silicone oil KN32 was therefore selected because the fill fluid for pressure transmission. The cleaning and conditioning of the diaphragm seal, the capillary, the bond pieces plus the automated filling process were also matched to one another exactly. With sensitive limit ranges, even one drop of liquid too much or inadequate can destabilise the quantity balance of the diaphragm seal system and therefore impair its function. Subsequently, correct measurement would no more be guaranteed.
Test under application conditions
After cleaning, all elements of the diaphragm seal system were first fully welded into a single unit as usual, accompanied by the filling and adjustment of the system. Before delivery, however, there is another crucial step ? in its laboratory, WIKA simulated vacuum pressure process for the diaphragm seal system relative to the customer?s conditions and subjected it to a thermal ageing process. This test confirmed the procedure suitability of the measuring system.
Note
Further information on the WIKA diaphragm seal systems are available on the WIKA website. Should you have any questions, your contact will gladly help you.
Also read our posts
Diaphragm seals for stable flow measurement in deep seas
How do diaphragm seals work?
Watch the next video to learn more concerning the functionality, application areas and benefits of diaphragm seals: