Instrumentation in petrochemical industries

Instrumentation in petrochemical industries basically consists of flow meters, pressure transmitters, level sensors, temperature sensors, and analysis instruments.

Temperature indicators

The measurement of temperature is a vital part of instrumentation in petrochemical industries. Platinum Resistance Temperature Detectors (RTD's) are often used for their excellent temperature response. Thermocouples are used in locations that need a more durable sensor. Thermocouples come in many types.

Pressure measurement

A pressure to current converter (P/I converter)[1] in petrochemical industries is used to measure the pressure developed by liquified petroleum gas (LPG), crude oil, petrol, and various other petroleum byproducts. In the P/I converter, the indicated pressure can be a digital or an analog form. The main advantage is that it can be directly shown on the control panel in the control room. This is true for temperature measurement also.

Flow meters

Because refined oil is volatile, it is important to know the quantity of oil being transported at numerous points along the pipeline. This requirement also holds for natural gas. Flowmeters are generally of vortex, positive displacement (PD),[2] differential pressure (DP),[3] coriolis, and ultrasonic[4] varieties.

Level sensors

Petroleum and natural gas industries need very accurate level measurement. Besides traditional technologies like differential pressure level meters, radar, magnetostrictive, and magnetic float are also used extensively.

One of the problems with a significant number of technologies is that they are installed through a nozzle and are exposed to products. This can create several problems, especially when retrofitting new equipment to vessels that have already been stress relieved, as it may not be possible to fit the instrument at the location required. Also, as the measuring element is exposed to the contents within the vessel, it may either attack or coat the instrument causing it to fail in service. One of the most reliable methods for measuring level is using a Nuclear gauge, as it is installed outside the vessel and doesn't normally require a nozzle for bulk level measurement. The measuring element is installed outside the process and can be maintained in normal operation without taking a shutdown. Shutdown is only required for an accurate calibration.

Analysis instruments

Industrial chromatographs are generally used in olefin processing in the petrochemical industry. Continuous gas analyzers are also widely used.

See also

References

  1. William Bolton (6 August 2015). Instrumentation and Control Systems. Elsevier Science. pp. 54–. ISBN 978-0-08-100621-4.
  2. Alan S Morris (9 March 2001). Measurement and Instrumentation Principles. Butterworth-Heinemann. pp. 328–. ISBN 978-0-08-049648-1.
  3. Roger C. Baker (9 August 2002). An Introductory Guide to Flow Measurement. John Wiley & Sons. pp. 52–. ISBN 978-1-86058-348-3.
  4. Lipták, Béla G. Instrument Engineers' Handbook: Process measurement and analysis. Taylor & Francis, Inc. pp. 151 (Chapter 2). ISBN 978-0-8493-1083-6.
This article is issued from Wikipedia - version of the 10/22/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.