Simulation of gas kick with high H_2S content in deep well 被引量：1

Simulation of gas kick with high H_2S content in deep well

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摘要 phase transition, from a subcritical state to a gaseous state, of the natural gas with high H2S content and the solubility of the H2S component in the drilling fluid will make the multiphase flow behavior very different from the pure natural gas-drilling fluid two-phase flow under the gas kick condition in a deep well. With consideration of the phase transition and the solubility of the H2S component in the natural gas, a multiphase flow model is established. The simulation analysis results indicate that, for a typical case of a well depth of 4 325 m, the density of the 100%-H2S natural gas can be 4 times higher than that of the 0%-H2S natural gas, and the solubility of the 100%-H2S natural gas is 130 times higher than that of the 0%-H2S natural gas. These will make the detection of the gas invasion more difficult. While the invasion gas moves up along the wellbore to a certain position, the phase transition and the release of the dissolved gas may cause a rapid volume expansion, increasing the blowout risk. The calculation results also show that the risks of a gas kick can be reduced by increasing the wellhead back pressure. Abstract： phase transition, from a subcritical state to a gaseous state, of the natural gas with high H2S content and the solubility of the H2S component in the drilling fluid will make the multiphase flow behavior very different from the pure natural gas-drilling fluid two-phase flow under the gas kick condition in a deep well. With consideration of the phase transition and the solubility of the H2S component in the natural gas, a multiphase flow model is established. The simulation analysis results indicate that, for a typical case of a well depth of 4 325 m, the density of the 100%-H2S natural gas can be 4 times higher than that of the 0%-H2S natural gas, and the solubility of the 100%-H2S natural gas is 130 times higher than that of the 0%-H2S natural gas. These will make the detection of the gas invasion more difficult. While the invasion gas moves up along the wellbore to a certain position, the phase transition and the release of the dissolved gas may cause a rapid volume expansion, increasing the blowout risk. The calculation results also show that the risks of a gas kick can be reduced by increasing the wellhead back pressure.

作者孙宝江公培斌王志远

机构地区 School of Petroleum Engineering

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2013年第2期264-273,共10页 水动力学研究与进展B辑（英文版）

基金 supported by the National Natural Science Foundation of China(Grant Nos.51034007,51104172and51004113) the National Science and Technology Major Project of China(Grant No.2011ZX05026-001) the Program for Changjiang Scholars and Innovative Research Team in University(Grant No.IRT1086)

关键词 hydrogen sulphide supercritical condition SOLUBILITY well control multiphase flow hydrogen sulphide, supercritical condition, solubility, well control, multiphase flow

分类号 TE21 [石油与天然气工程—油气井工程]

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Journal of Hydrodynamics

2013年第2期

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