Effectiveness Analysis of Complex Gas Treatment Facility on the Base of Vortex Pipe Application in a Low Temperature Separation Zone

Diana Musina

Research output: ThesisMaster's Thesis

Abstract

This master thesis presents an analysis of current situation in Russian natural gas industry and analyzes different ways of gas primary treatment, such as compression method, absorption and adsorption cleanings, and finally, low-temperature separation (LTS). Among all existing techniques, LTS technology is one of the most common and effective methods of drying crude natural gas in the North fields. In LTS technology, separation process is preceded by a cooling process using traditional cold-producing devices (throttle, ejector and turbo-expander) due to the Joule-Thomson effect or an external cooling cycle. The main purpose of this study was to prove the possibility of using a vortex tube in LTS technology, as a result of which it is assumed to increase the degree of heavy hydrocarbons extraction such as C3+ and C5+. To check the adequacy of the proposed technology, its computational model was created in Aspen HYSYS software package and mathematical calculation of geometric and thermodynamic parameters of vortex tube was performed. After calculating the economic efficiency of this technology and comparing it with traditional LTS installations, it is established that LTS technology with vortex tube application is economically profitable.
Translated title of the contributionAnalyse der Effizienz von der komplexen Erdgasvorbereitungseinheit unter Verwendung vom Wirbelrohr in einer Niedertemperatur-Separierungseinheit
Original languageEnglish
QualificationMSc
Awarding Institution
  • Montanuniversität
Supervisors/Advisors
  • Kolchin, Alexander, Co-Supervisor (external), External person
  • Hofstätter, Herbert, Supervisor (internal)
  • Sirghii, Viorica, Co-Supervisor (internal)
Award date23 Oct 2020
Publication statusPublished - 2020

Bibliographical note

embargoed until null

Keywords

  • Natural Gas
  • Low-Temperature Separation
  • Throttle
  • Turbo-Expander
  • Vortex Tube

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