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• W3203270294 abstract "• Full separation of phases is often required in systems carrying gas-liquid flow. • A simple system of combined impacting tee junctions is proposed. • The system is capable of full-phase separation over a wide range of inlet conditions. • Applicability range include stratified, wavy, annular, slug, and plug flow regimes. • The new system has higher separation effectiveness compared to previous ones. The main objective of this investigation was to design and test a simple device capable of gas-liquid separation over a wide range of inlet conditions. A novel system of combined impacting tee junctions was designed and built for this purpose. The system consisted of three horizontal and four vertical, equal-sided impacting tee junctions of internal diameter 13.5 mm, having a single (horizontal) inlet and two vertical (top and bottom) outlets. Two sets of experiments were conducted. The experiments were performed with air-water mixtures at a nominal inlet pressure of 200 kPa (abs) and ambient temperature. The limiting conditions of inlet gas and liquid superficial velocities ( J G1 and J L1 , respectively) for full-phase separation were determined experimentally. It was found that with the present system, the limiting conditions (gas and liquid inlet superficial velocities) for full-phase separation are almost double those of a system of three impacting junctions and quadruple those of a single impacting tee junction. Outside the region of full-phase separation, the phase-separation effectiveness of the combined junction system relative to other systems proposed in the literature was investigated. It was found that the present system produces higher phase-separation effectiveness when compared to other combined junctions." @default.
• W3203270294 created "2021-10-11" @default.
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• W3203270294 date "2022-02-01" @default.
• W3203270294 modified "2023-09-26" @default.
• W3203270294 title "Experimental investigation of gas-liquid separation with a new combined impacting junction" @default.
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• W3203270294 doi "https://doi.org/10.1016/j.expthermflusci.2021.110527" @default.
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