VEGABAR measures reliably even under extreme pressures and temperatures

Florian Burgert

"Two is better than one." This saying isn't only used in colloquial speech. It also applies to difficult pressure measurements in specialty chemicals production facilities. Two VEGABAR sensors ensure reliable measured values and thus, a reliable process.

Specialty chemicals usually have exact specifications, adapted to a particular application in each case. The processes to make these chemicals are also subject to the same exact specifications, which have to be carefully controlled. Measurement technology is effectively the first link in a precisely coordinated process chain. In other words, if a particular measured value is not correct, the entire process may not necessarily fail, but it might consume too much energy or raw materials or the quality of the end product might lie outside the specification limits.

This was the case with a critical pressure measurement in a petrochemical process. The measuring point is located in a potentially explosive area. Temperatures are between +20 and +200° C with pressures between 1.5 and 200 kPa absolute. The pressure measurement at this point represents a decisive control variable in a fully automated process. This is because the efficiency of the process, and ultimately the product quality, depend on this variable. Even small deviations lead to instabilities in process control.

The pressure measurement was previously made using a standard differential pressure measuring system. This measurement setup uses an oil-filled capillary tube mounted on the outside of the 20 m high column. Fluctuating external temperatures (e.g. in countries with high temperatures during the day and cold winds at night) cause a drift in the measured values. These incorrect values cannot be corrected mathematically. Normally, this problem is solved by using larger process fittings for the pressure transmitter, but this was not possible because of structural reasons. In addition to this, the boiling point of the oil in the capillary tube drops due to the high temperatures and vacuum conditions, causing the oil to outgas. As a result, air bubbles form in the line, which also leads to an unstable measurement. With all of this working against the sensor, this measuring point regularly delivered inaccurate measured values.

VEGA pressure transmitters offer advantages under extreme conditions

Handles temperatures up to + 200 °C: METEC® measuring cell with alloy diaphragm.
For difficult situations like this one, VEGA recommends an electronic differential pressure measuring system using two pressure transmitters from the VEGABAR 80 Series. These pressure transmitters are used across industries, and they offer special advantages in applications with extremely high pressures. The instruments' measuring range begins with tiny pressures as low as 0 to 25 mbar and extends to extreme pressures up to 1,000 bar at process temperatures from -20 to +400° C. This wide range is achieved by using different measuring cells for different applications. By connecting two VEGABAR 80 Series sensors together, operators could accurately and reliably measure differential pressure despite the difficult conditions. 
The solution for strongly fluctuating ambient temperatures: Electronic differential pressure measurement with two pressure transmitters of the VEGABAR 80 series.

In this application, two VEGABAR 83 sensors are connected via an innovative software and hardware concept.

To cope with the high temperatures up to +200° C, engineers selected the METEC® measuring cell, which uses an alloy diaphragm and self-compensating temperature feature. This cell is elastomer-free, absolutely vacuum-proof, and has good thermal shock behavior. The thermal coefficients of the materials in the metallic measuring cell were matched to each other in such a way that temperature can no longer influence the measurement. When the oil expands during heating, the alloy and stainless steel free up just enough space to allow the oil to expand. Conversely, if the temperature significantly drops, this effect works in reverse.

This feature allows the pressure transmitter's process fitting to remain very small - just 1½".  A pressure transmitter for this type of application would normally require a 3" (DN 80) fitting for a stable pressure measurement. VEGA's solution resulted in better measured values and the use of a smaller design.

 
The engineering team was more than satisfied with the electronic differential pressure system using VEGABAR sensors. The measuring points previously equipped with a standard differential pressure measuring system are being gradually retrofitted with the new solution using electronic differential pressure.
 

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VEGA Instruments, Canada Ltd. Suite 501, 2235 Sheppard Ave East, M2J 5B5 NORTH YORK, ON
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