Abstract
Gas-liquid two-phase flow is ubiquitous in the process of oil and gas exploitation, gathering and transportation. Flow pattern, liquid holdup and pressure drop are important parameters in the process of gas-liquid two-phase flow, which are closely related to the smooth passage of the two-phase fluid in the pipe section. Although Mukherjee, Barnea and others have studied the conventional viscous gas-liquid two-phase flow for a long time at home and abroad, the overall experimental scope is not comprehensive enough and the early experimental conditions are limited. Therefore, there is still a lack of systematic experimental research and wellbore pressure for gas-liquid two-phase flow under the conditions of middle and high yield and high gas-liquid ratio in conventional viscosity, and the prediction accuracy is low. In view of this, this study carried out targeted systematic research, and from the flow pattern, liquid holdup and pressure drop aspects, established the relevant model, obtained a set of inclined wellbore gas-liquid two-phase pipe flow dynamic prediction method. At the same time, firstly, the model is tested by experimental data, and then the model is compared and verified by a number of field measured wells, which proves that the model is reliable and the prediction accuracy of wellbore pressure is high.
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