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Experimental study of the relative effect of pressure drop and flow rate on the droplet size downstream of a pipe restriction

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ABSTRACT An experimental setup consisting of a 100 mm inner diameter pipeline, a butterfly valve with inner diameter of 100 mm, and oil and water pumping capacities of up to 20 m3/h were… Click to show full abstract

ABSTRACT An experimental setup consisting of a 100 mm inner diameter pipeline, a butterfly valve with inner diameter of 100 mm, and oil and water pumping capacities of up to 20 m3/h were used to study droplet breakup in two-phase oil–water flow. The tests were performed at atmospheric pressure and under ambient temperatures. A particle-sizing camera was used to quantify droplet sizes. Combinations of different flow rates, water cuts, and pressure drops were tested to determine the relative effects of flow rate and pressure drop over a valve on the droplet breakup process. The test matrix was designed so that it should be possible to determine if the droplet sizes produced were independent of the flow rate. The fluid system consisted of a water phase and a mineral oil with viscosity of 4 mPa · s. Two different droplet breakup models were compared against the measured droplet sizes. The two models considered turbulence and droplet acceleration through the restriction respectively as the main contributor for droplet breakup. GRAPHICAL ABSTRACT

Keywords: droplet; flow rate; pressure; droplet breakup

Journal Title: Journal of Dispersion Science and Technology
Year Published: 2017

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