TY - JOUR EP - 150 PB - Elsevier B.V. SN - 09204105 N1 - cited By 21 TI - Experimental investigation on the effect of diameter ratio on two-phase slug flow separation in a T-Junction SP - 139 AV - none A1 - Saieed, A. A1 - Pao, W. A1 - Hewakandamby, B. A1 - Azzopardi, B.J. A1 - Wood, D.A. A1 - Ali, H.M. JF - Journal of Petroleum Science and Engineering UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85048882000&doi=10.1016%2fj.petrol.2018.06.033&partnerID=40&md5=33e5ea29ba2aa5338f91374544f95b6c VL - 170 Y1 - 2018/// N2 - T-junctions are often used in offshore platforms to partially separate gas from produced fluids. Poorly designed T-junctions frequently produce very high liquid (oil and/or water) carryovers, causing major issues to the downstream equipment train which is not designed to handle excessive liquid. This paper reports the liquid carryover experiments in T-junctions using five different side to main arm diameter ratios under slug flow regime. The obtained phase separation curves can be divided into two component variables; liquid-carryover threshold and peak liquid carryover. The experiments demonstrate that with a decrease in diameter ratio both of these variables decrease. Yet, for superior multiphase flow separation, a high liquid carryover threshold and a low peak liquid carryover are required. Hence, the generally accepted rule that a reduction in diameter ratio improves the phase separation is revealed to be an over-extrapolated statement. The novel findings of this work are: 1) for optimum flow splitting under slug flow conditions, the diameter ratio should be kept between 1 and 0.67, while the diameter ratio 0.67 was found to be most suitable; 2) two correlations were developed for predicting two-phase slug flow separation in different diameter ratio T-junctions. These correlations offer beneficial guidance and clarifications for a number of oil and gas flowline and pipeline applications. © 2018 Elsevier B.V. ID - scholars9827 KW - Drilling platforms; Flow separation; Intersections; Liquids KW - Diameter ratio; Downstream equipment; Experimental investigations; Gas-liquid separation; Liquid carryovers; Off shore platforms; Slug flow; T junctions KW - Phase separation KW - diameter; experimental study; gas flow; multiphase flow; pipeline; separation; slug flow; two phase flow ER -