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提高页岩解吸气组分分析进样一次性成功率质量控制措施
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作者 李洋冰 胡维强 +6 位作者 陈鑫 马立涛 黄英 乔方 刘成 王朵 刘再振 《科技创新与应用》 2019年第32期126-127,129,共3页
基于页岩解吸气组分分析进样工艺开发,分析了提高进样一次性成功率工艺实施过程的质量控制。从质量控制的人、机、料、法、环、测等多个维度出发,讨论了影响进样一次性成功率质量的一些关键性因素,分析了该技术在应用过程中质量控制存... 基于页岩解吸气组分分析进样工艺开发,分析了提高进样一次性成功率工艺实施过程的质量控制。从质量控制的人、机、料、法、环、测等多个维度出发,讨论了影响进样一次性成功率质量的一些关键性因素,分析了该技术在应用过程中质量控制存在的问题,并从质量保证角度提出了一些建设性的改进意见与补救措施,旨在通过质量控制提高页岩气组分分析进样一次性成功率,实现降本增效。 展开更多
关键词 页岩解吸气 组分分析 成功率 质量控制
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Molecular mechanism of adsorption/desorption hysteresis:dynamics of shale gas in nanopores 被引量:7
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作者 Jie Chen FengChao Wang +1 位作者 He Liu HengAn Wu 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2017年第1期24-31,共8页
Understanding the adsorption and desorption behavior of methane has received considerable attention since it is one of the crucial aspects of the exploitation of shale gas.Unexpectedly,obvious hysteresis is observed f... Understanding the adsorption and desorption behavior of methane has received considerable attention since it is one of the crucial aspects of the exploitation of shale gas.Unexpectedly,obvious hysteresis is observed from the ideally reversible physical sorption of methane in some experiments.However,the underlying mechanism still remains an open problem.In this study,Monte Carlo(MC) and molecular dynamics(MD) simulations are carried out to explore the molecular mechanisms of adsorption/desorption hysteresis.First,a detailed analysis about the capillary condensation of methane in micropores is presented.The influence of pore width,surface strength,and temperature on the hysteresis loop is further investigated.It is found that a disappearance of hysteresis occurs above a temperature threshold.Combined with the phase diagram of methane,we explicitly point out that capillary condensation is inapplicable for the hysteresis of shale gas under normal temperature conditions.Second,a new mechanism,variation of pore throat size,is proposed and studied.For methane to pass through the throat,a certain energy is required due to the repulsive interaction.The required energy increases with shrinkage of the throat,such that the originally adsorbed methane cannot escape through the narrowed throat.These trapped methane molecules account for the hysteresis.Furthermore,the hysteresis loop is found to increase with the increasing pressure and decreasing temperature.We suggest that the variation of pore throat size can explain the adsorption/desorption hysteresis of shale gas.Our conclusions and findings are of great significance for guiding the efficient exploitation of shale gas. 展开更多
关键词 shale gas adsorption/desorption hysteresis numerical simulation capillary condensation pore throat
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