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Study on Coal Methane Adsorption Behavior Under Variation Temperature and Pressure-Taking Xia-Yu-Kou Coal for Example

Received: 25 June 2018     Accepted: 9 July 2018     Published: 1 August 2018
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Abstract

Based on the Langmuir volume and Langmuir pressure of Xiao-Yu-Kou #3 coal’s methane adsorption, Li’s adsorption-flow equation’s parameters have been calculated. LI adsorption-flow equation obtained can visually show and quantitatively calculate that how and how much variation temperature and pressure change the absorption capacity. Partial differential equation characterizes temperature has negative effects and pressure has positive effects. Therefore, under variation temperature and pressure conditions, coal adsorption capacity would have the maximum value.

Published in International Journal of Oil, Gas and Coal Engineering (Volume 6, Issue 4)
DOI 10.11648/j.ogce.20180604.13
Page(s) 60-66
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2018. Published by Science Publishing Group

Keywords

LI Adsorption-Flow Equations, Partial Differential for Temperature, Partial Differential for Pressure, Total Differential, The Maximum Value

References
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[3] ZHANG Qun, CUI Yong-jun, ZHONG Ling-wen, et al. Temperature pressure integrated adsorption model of methane adsorbed by coal [J], Journal of China Coal Society, 2008(11):1272-1278.
[4] ZHONG Lin-wen, ZHENG Yu-zhu, YUN Zheng-rong, et al. The adsorption capability of coal under integrated influence of temperature and pressure and prediction of content quantity of coalbed gas [J], Journal of China Coal Society. 2002,27(6): 581-585
[5] ZHANG Tian-jun, XU Hong-jie, LI Shu-gang, et al. The effect of temperature on the adsorbing capacity [J], Journal of China Coal Society. 2009,34(6):802—805
[6] MA Dong-ming, ZHANG Sui-an, LIN Ya-bing, Isothermal adsorption and desorption experiment of coal and experimental results accuracy fitting [J], Journal of China Coal Society. 2011,36(3):477—479
[7] TANG Shu-heng, FAN Er-ping, ZHANG Song-hang, et al. Reservoir characteristics and gas-bearing capacity of the Lower Palaeozoic marine shales in Northwestern Hunan [J], Earth Science Frontiers, 2016, 23(02), 135-146
[8] ZHAO Li-juan, QIN Yong, Geoff WANG, et al. Adsorption Behavior of Deep Coalbed Methane Under High Temperature and Pressure [J], Geological Journal of China Universities, 2013,19(4):648-654
[9] XUE Jing-zhan, FU Xue-hai, FAN Chun-jie, et al. Adsorption and adsorption model of H_2S in different coal ranks [J], Coal Geology & Exploration, 2016, 44(06), 75-78
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[12] LI Dong, CHEN Wen, FENG Xi-wen, et al. Comparative study between the measured and calculated values of coal isothermal adsorption Langmuir [J]. Shaanxi Coal, 2017, 36(02), 10-13
[13] LI Dong, ZHANG Xue-mei, CHENG Shi, et al. The influence of both temperature and pressure on the adsorption and activated flow of coalbed methane in coal seams [J], Inner Mongolia Petrochemical Industry, 2015 3: 6-8
Cite This Article
  • APA Style

    Hao Jingyuan, Li Dong, Zhang Xuemei, Ma Qinghua. (2018). Study on Coal Methane Adsorption Behavior Under Variation Temperature and Pressure-Taking Xia-Yu-Kou Coal for Example. International Journal of Oil, Gas and Coal Engineering, 6(4), 60-66. https://doi.org/10.11648/j.ogce.20180604.13

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    ACS Style

    Hao Jingyuan; Li Dong; Zhang Xuemei; Ma Qinghua. Study on Coal Methane Adsorption Behavior Under Variation Temperature and Pressure-Taking Xia-Yu-Kou Coal for Example. Int. J. Oil Gas Coal Eng. 2018, 6(4), 60-66. doi: 10.11648/j.ogce.20180604.13

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    AMA Style

    Hao Jingyuan, Li Dong, Zhang Xuemei, Ma Qinghua. Study on Coal Methane Adsorption Behavior Under Variation Temperature and Pressure-Taking Xia-Yu-Kou Coal for Example. Int J Oil Gas Coal Eng. 2018;6(4):60-66. doi: 10.11648/j.ogce.20180604.13

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  • @article{10.11648/j.ogce.20180604.13,
      author = {Hao Jingyuan and Li Dong and Zhang Xuemei and Ma Qinghua},
      title = {Study on Coal Methane Adsorption Behavior Under Variation Temperature and Pressure-Taking Xia-Yu-Kou Coal for Example},
      journal = {International Journal of Oil, Gas and Coal Engineering},
      volume = {6},
      number = {4},
      pages = {60-66},
      doi = {10.11648/j.ogce.20180604.13},
      url = {https://doi.org/10.11648/j.ogce.20180604.13},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ogce.20180604.13},
      abstract = {Based on the Langmuir volume and Langmuir pressure of Xiao-Yu-Kou #3 coal’s methane adsorption, Li’s adsorption-flow equation’s parameters have been calculated. LI adsorption-flow equation obtained can visually show and quantitatively calculate that how and how much variation temperature and pressure change the absorption capacity. Partial differential equation characterizes temperature has negative effects and pressure has positive effects. Therefore, under variation temperature and pressure conditions, coal adsorption capacity would have the maximum value.},
     year = {2018}
    }
    

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  • TY  - JOUR
    T1  - Study on Coal Methane Adsorption Behavior Under Variation Temperature and Pressure-Taking Xia-Yu-Kou Coal for Example
    AU  - Hao Jingyuan
    AU  - Li Dong
    AU  - Zhang Xuemei
    AU  - Ma Qinghua
    Y1  - 2018/08/01
    PY  - 2018
    N1  - https://doi.org/10.11648/j.ogce.20180604.13
    DO  - 10.11648/j.ogce.20180604.13
    T2  - International Journal of Oil, Gas and Coal Engineering
    JF  - International Journal of Oil, Gas and Coal Engineering
    JO  - International Journal of Oil, Gas and Coal Engineering
    SP  - 60
    EP  - 66
    PB  - Science Publishing Group
    SN  - 2376-7677
    UR  - https://doi.org/10.11648/j.ogce.20180604.13
    AB  - Based on the Langmuir volume and Langmuir pressure of Xiao-Yu-Kou #3 coal’s methane adsorption, Li’s adsorption-flow equation’s parameters have been calculated. LI adsorption-flow equation obtained can visually show and quantitatively calculate that how and how much variation temperature and pressure change the absorption capacity. Partial differential equation characterizes temperature has negative effects and pressure has positive effects. Therefore, under variation temperature and pressure conditions, coal adsorption capacity would have the maximum value.
    VL  - 6
    IS  - 4
    ER  - 

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Author Information
  • Energy & Chemical Engineering Research Center, Xi’an Siyuan University, Xi’an, China

  • Energy & Chemical Engineering Research Center, Xi’an Siyuan University, Xi’an, China

  • Energy & Chemical Engineering Research Center, Xi’an Siyuan University, Xi’an, China

  • Energy & Chemical Engineering Research Center, Xi’an Siyuan University, Xi’an, China

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