The recent trends of increasing energy demand led the industry toward the development of heavy oil unconventional resources. However, the production and transportation of such heavy oil is a challenge due to the lack of understanding of the two-phase flow behaviour under the condition of high viscosity liquid phase. The objective of this study is to physically understand and quantify the effect of liquid viscosity on slug length and develop two-phase slug length model for high oil viscosity. The developed slug length model can improve the existing two-phase flow models in the development and maintenance of heavy oil fields. Experimental high viscosity (0.181 - 0.589 Pa s) two-phase air/mineral viscous oil slug length data is acquired in a horizontal 0.0508 m ID pipe. Data analysis showed a one third reduction in the average slug length compared to the average slug length under low viscosity condition. Furthermore, statistical analyses showed a significant effect of liquid phase viscosity on slug length distribution including maximum slug length and slug length variation. High speed recorded flow visualization revealed the effect of liquid phase viscosity on the scooping and shedding processes at the front and back of the slug, respectively; which is speculated to reduce the slug length. In addition, a proposed physical model suggests that the thick liquid film in the Taylor bubble zone and the short slug mixing zone result in a fully developed velocity profile at slug back stabilizing the slug at a shorter length. A new dimensional analysis based model is proposed to predict average slug length for high viscosity liquid slug flow. A model validation and comparison study showed the best performance amongst the existing correlations.


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    Title :

    High viscosity liquid effect on two-phase slug length in horizontal pipes


    Additional title:

    Auswirkung hochviskoser Flüssigkeiten auf die Zweiphasen-Pfropfenlänge in horizontalen Rohren


    Contributors:
    Al-Safran, E. (author) / Gokcal, B. (author) / Sarica, C. (author)


    Publication date :

    2011


    Size :

    20 Seiten, 13 Bilder, 5 Tabellen, 30 Quellen



    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English