• 论文
主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
基于水合物分离法提纯高浓度CO2瓦斯的相平衡研究
  • Title

    Study on phase equilibrium of separation and purification for gas with high CO2 concentration based on hydrate method

  • 作者

    张保勇于洋吴强刘传海

  • Author

    ZHANG Baoyong YU Yang WU Qiang LIU Chuanhai

  • 单位

    黑龙江科技大学安全工程学院,瓦斯等烃气输运管网安全基础研究国家级专业中心实验室

  • Organization
    Department of Safety Engineering,Heilogjiang University of Science & Technology National Central Laboratory of
    Basic Research of Hydrocarbon Gas Transportation Pipeline Safety
  • 摘要

    高浓度CO2瓦斯水合物相平衡的确定是基于瓦斯水合物分离法的瓦斯抽采利用关键问题。利用可视化瓦斯水合物相平衡装置,结合恒容温度搜索法和观察法,首先测定了不同温度、压力下3种高浓度CO2瓦斯气样的相平衡条件,在试验基础上提出了高浓度CO2瓦斯水合物相平衡温度与压力关系式,此外,对比分析了高浓度CO2瓦斯气样与纯CO2、纯CH4气样水合物相平衡的差异。结果表明:高浓度CO2瓦斯水合物形成条件较温和,0.44℃下相平衡压力最低,为1.58MPa;高浓度CO2瓦斯水合物相平衡温度与压力呈二项式关系;高浓度CO2瓦斯水合物相平衡曲线位于纯CH4和纯CO2水合物相平衡曲线之间,且更为接近纯CO2相平衡曲线;较低温度、压力(0.44~4.94℃,1.58~2.80MPa)下,气样中CO2浓度上升能降低高浓度CO2瓦斯水合物相平衡压力,改善其相平衡条件,而较高温度、压力(4.94~7.80℃,2.80~4.02MPa)下,气样中CO2浓度变化对水合物相平衡条件影响较小;高浓度CO2瓦斯水合物相平衡温度与压力关系式得到的压力计算值与实测值之间差值较小,平均相对误差为2.33%,能较准确地预测高浓度CO2瓦斯水合物相平衡条件。高浓度CO2瓦斯相平衡测定结果可为瓦斯水合分离技术中温度和压力选取,基于水合物分离法的CO2捕集与封存技术提供试验参考和理论基础。




  • Abstract
    The determination of the phase equilibrium of high-concentration CO2 gas hydrate is a key issue in the uiliation of gas drainage based on gas hydratio n separation technology. Using the visual gas hydrate phase equilibrium device ,combined with the constant volume temperature search method and the observation met hod,the phase equilibrium conditions of three high-concentration CO2 gas samples at different temperatures and pressures were first measured,and the high-concentrat ion CO2 gas was proposed on the basis of the experiment.Then,a mathematical formula was fitted to describe the relation of phase equlibrium temperature and pressur e. In addition,the difference in hydrate phase eqilbrium between high-concentration CO2 gas samples and pure CO2 and pure CH4 gas samples is compared. The res ults show that the conditions for the formation of high-concentration CO2 gas hydrates are relatively mild. Specically,the phase equilibrium pressure in this test range i s the lowest at a temperature of 0.44 °C,which is 1.58 MPa; the phase equllibrium temperature and pressure of high-concentration CO2 gas hydrates are in a binomial r elationship; the phase equilibrium curve of CO2 gas hydrate lies between the phase equilibrium curve of pure CH4 and pure CO2 hydrate,and is closer to the phase equ ilibrium curve of pure CO2; at lower temperature and pressure( 0.44 ~ 4.94 。C,1.58 ~ 2.80 MPa),the gas increasing CO2 concentration in the sample can reduce the p hase equlibrium pressure of high-concentration CO2 gas hydrate and improve its phase equlibrium conditions. At higher temperature and pressure( 4.94~ 7.80 °C,2.80 ~ 4.02 MPa),the change of CO2 concentration in the gas sample has an effect on hydration. The phase equlibrium conditions have lttle effect; the difference between t he calculated value of the pressure obtained from the relationship between the phase eqilibrium temperature and pressure of high-concentration CO2 gas hydrate and the actual measured value is small,and the average relative error is 2.33%,which can accurately predict high concentrations CO2 gas hydrate phase equllibrium conditio ns. Phase equlibrium measurement results of coal mine gas with high CO2 concentration provide experimental reference and theoretical basis for the selection of temp erature and pressure in the gas separation and CO2 capture and sequestration technology based on the hydrate method.
  • 关键词

    ​高浓度CO2瓦斯相平衡瓦斯水合物水合物生成/分解试验瓦斯利用

  • KeyWords

    high-concentration CO2 gas; phase equilibrium; coal mine gas hydrate; hydrate formation/dissociation test; coal mine gas utilization;

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    • 可视化瓦斯水合物相平衡测定装置

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主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会

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