Experimental investigation of oil-water flow in the horizontal and vertical sections of a continuous transportation pipe

A series of experiments were conducted to investigate flow pattern transitions and concentration distribution during simultaneous pipe flow of oil-water two-phase flow through the horizontal and vertical sections. The flowing media applied were white mineral oil and distilled water. Superficial oil and water velocities were between 0 and 0.57 m/s. Flow pattern maps revealed that the horizontal and vertical sections of the pipe lead to different flow pattern characteristics under the same flow conditions. The original contributions of this work are that a transition mechanism for predicting the boundary between oil-in-water (O/W) flow and water-in-oil (W/O) in oil-water two-phase flow was obtained. The effects of input water cut, oil and water superficial velocities on the concentration distribution of the dispersed phase were studied. The empirical formulas for the phase holdup based on the drift-flux model were obtained. The predicted results agreed well with those of the experimental data, especially for the O/W flow pattern.

Automated summary

A series of experiments were conducted to investigate flow pattern transitions and concentration distribution during simultaneous pipe flow of oil-water two-phase flow. Different flow pattern characteristics were observed in the horizontal and vertical sections of the pipe under the same flow conditions. The study obtained a transition mechanism for predicting the boundary between oil-in-water (O/W) flow and water-in-oil (W/O) and empirical formulas for phase holdup based on the drift-flux model.