Ruiqing Ming scite author profile

Ruiqing Ming

3Publications

6Citation Statements Received

24Citation Statements Given

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Affiliations

Research Institute of Petroleum Exploration and Development, China National Petroleum Corporation (China), Wuhan University

Publications

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A New Approach for Accurate Prediction of Liquid Loading of Directional Gas Wells in Transition Flow or Turbulent Flow

Ming

2017

Journal of Chemistry

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Current common models for calculating continuous liquid-carrying critical gas velocity are established based on vertical wells and laminar flow without considering the influence of deviation angle and Reynolds number on liquid-carrying. With the increase of the directional well in transition flow or turbulent flow, the current common models cannot accurately predict the critical gas velocity of these wells. So we built a new model to predict continuous liquid-carrying critical gas velocity for directional well in transition flow or turbulent flow. It is shown from sensitivity analysis that the correction coefficient is mainly influenced by Reynolds number and deviation angle. With the increase of Reynolds number, the critical liquid-carrying gas velocity increases first and then decreases. And with the increase of deviation angle, the critical liquid-carrying gas velocity gradually decreases. It is indicated from the case calculation analysis that the calculation error of this new model is less than 10%, where accuracy is much higher than those of current common models. It is demonstrated that the continuous liquid-carrying critical gas velocity of directional well in transition flow or turbulent flow can be predicted accurately by using this new model.

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A new model for improving the prediction of liquid loading in horizontal gas wells

Ming

2018

Journal of Natural Gas Science and Engineering

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A Novel Method for Fault Location Based on Two-Terminal Unsynchronized Data

Gong

Ming

2010

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Ruiqing Ming

A New Approach for Accurate Prediction of Liquid Loading of Directional Gas Wells in Transition Flow or Turbulent Flow

A new model for improving the prediction of liquid loading in horizontal gas wells

A Novel Method for Fault Location Based on Two-Terminal Unsynchronized Data

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