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    Effect of Particle Size on Flow Mode and Flow Characteristics of Pulverized Coal

    New search for: Haifeng Lu
    New search for: Xiaolei Guo
    New search for: Yi Liu
    New search for: Xin Gong

    This paper reports on an extensive experimental campaign aimed at studying on effect of particle size and flow mode on the flow characteristics of pulverized coal. A series of pulverized coal changing the mean particle size in the range 18–224 μm were used as the experimental materials and three flow modes including gravity-induced flow, downwards and upwards mechanically forced flow were investigated. The gravity-induced flow was characterized by discharging pulverized coal from the Perspex hopper gravitationally, while the mechanically forced flow was performed inside a cylindrical vessel where the blade rotated and moved downwards or upwards to displace the pulverized coal. Furthermore, the relationship between different flow modes was discussed and the force analysis was used to reveal the flow mechanisms of gravity-induced flow.

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    Effect of Particle Size on Flow Mode and Flow Characteristics of Pulverized Coal

    New search for: Haifeng Lu
    New search for: Xiaolei Guo
    New search for: Yi Liu
    New search for: Xin Gong

    This paper reports on an extensive experimental campaign aimed at studying on effect of particle size and flow mode on the flow characteristics of pulverized coal. A series of pulverized coal changing the mean particle size in the range 18–224 μm were used as the experimental materials and three flow modes including gravity-induced flow, downwards and upwards mechanically forced flow were investigated. The gravity-induced flow was characterized by discharging pulverized coal from the Perspex hopper gravitationally, while the mechanically forced flow was performed inside a cylindrical vessel where the blade rotated and moved downwards or upwards to displace the pulverized coal. Furthermore, the relationship between different flow modes was discussed and the force analysis was used to reveal the flow mechanisms of gravity-induced flow.

    Access

    Download

    Effect of Particle Size on Flow Mode and Flow Characteristics of Pulverized Coal

    New search for: Haifeng Lu
    New search for: Xiaolei Guo
    New search for: Yi Liu
    New search for: Xin Gong

    This paper reports on an extensive experimental campaign aimed at studying on effect of particle size and flow mode on the flow characteristics of pulverized coal. A series of pulverized coal changing the mean particle size in the range 18–224 μm were used as the experimental materials and three flow modes including gravity-induced flow, downwards and upwards mechanically forced flow were investigated. The gravity-induced flow was characterized by discharging pulverized coal from the Perspex hopper gravitationally, while the mechanically forced flow was performed inside a cylindrical vessel where the blade rotated and moved downwards or upwards to displace the pulverized coal. Furthermore, the relationship between different flow modes was discussed and the force analysis was used to reveal the flow mechanisms of gravity-induced flow.

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    Download

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    Download

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    Document information
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    Document information
    Title:

    Effect of Particle Size on Flow Mode and Flow Characteristics of Pulverized Coal

    Contributors:

    Haifeng Lu (author) / Xiaolei Guo (author) / Yi Liu (author) / Xin Gong (author)

    Published in:

    KONA Powder and Particle Journal, Vol 32, Iss 0, Pp 143-153 (2014)

    Publication date:

    2014

    ISSN:

    0288-4534 , 2187-5537

    DOI:

    https://doi.org/10.14356/kona.2015002

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    flow behaviors , pulverized coal , particle size , flow mode , predominant force , Technology (General) , T1-995 , Nuclear and particle physics. Atomic energy. Radioactivity , QC770-798

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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