2009 Volume 3 Issue 2
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Huang Weiqiu, Peng Qun, Liu Jun. Gasoline vapor recovery technology applied in gasoline stations[J]. Chinese Journal of Environmental Engineering, 2009, 3(2): 327-330.
Citation: Huang Weiqiu, Peng Qun, Liu Jun. Gasoline vapor recovery technology applied in gasoline stations[J]. Chinese Journal of Environmental Engineering, 2009, 3(2): 327-330.
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Gasoline vapor recovery technology applied in gasoline stations

  • 1.

    Jiangsu Key Laboratory of Oil and Gas Storage and Transportation Technology, Jiangsu Polytechnic University, Changzhou 213016

  • Received Date: 19/05/2008
    Accepted Date: 17/04/2008
    Fund Project:
  • The vapor recovery statuses of gasoline stations at home and abroad are analyzed, concluding that it is an emergency to carry out fully vapor recovery at home gasoline stations. Based on the characteristics of gas emission and the existed technologies, integrated vapor recovery technology based on “condensation-adsorption” is recommended, which is not only technological advanced but also economical reasonable. The vapor recovery efficiency of this technology is up to 99.2% while the tail gas concentration can be controlled below 11.2 g/m3. Aspen software and experiment are used in the process of studies. This technology can provide powerful technical support for the safety, environmental protection and energy saving of gasoline stations.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Gasoline vapor recovery technology applied in gasoline stations

  • Received Date: 19/05/2008
  • Accepted Date: 17/04/2008
Fund Project:

Abstract: The vapor recovery statuses of gasoline stations at home and abroad are analyzed, concluding that it is an emergency to carry out fully vapor recovery at home gasoline stations. Based on the characteristics of gas emission and the existed technologies, integrated vapor recovery technology based on “condensation-adsorption” is recommended, which is not only technological advanced but also economical reasonable. The vapor recovery efficiency of this technology is up to 99.2% while the tail gas concentration can be controlled below 11.2 g/m3. Aspen software and experiment are used in the process of studies. This technology can provide powerful technical support for the safety, environmental protection and energy saving of gasoline stations.

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