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    Model‐based Scale Up of Solid Bowl Centrifuges Using Experimentally Determined Material Functions

    New search for: Zhai, Ouwen
    New search for: Baust, Helene
    New search for: Gleiß, Marco
    New search for: Nirschl, Hermann

    The scale up of solid bowl centrifuges is a major challenge as the process and material behavior are complex and difficult to describe. A common approach to forecast the process behavior is to use analytical models and transfer the experience gained from the lab to the industrial scale. In this context, time‐consuming and cost‐intensive pilot scale experiments are necessary. This paper presents a methodology to improve the scale up process and make it more sustainable by using a numerical model that allows the real‐time tracking of the process and a more reliable scale up process. For this approach, the material behavior is derived from laboratory experiments whereby the scalability is given. Here, the determination of material functions allows an accurate representation of the material behavior for solid bowl centrifuges of different scales. The focus of this paper is the detailed explanation of material related functions for the scale up of decanter centrifuges.

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    Model‐based Scale Up of Solid Bowl Centrifuges Using Experimentally Determined Material Functions

    New search for: Zhai, Ouwen
    New search for: Baust, Helene
    New search for: Gleiß, Marco
    New search for: Nirschl, Hermann

    The scale up of solid bowl centrifuges is a major challenge as the process and material behavior are complex and difficult to describe. A common approach to forecast the process behavior is to use analytical models and transfer the experience gained from the lab to the industrial scale. In this context, time‐consuming and cost‐intensive pilot scale experiments are necessary. This paper presents a methodology to improve the scale up process and make it more sustainable by using a numerical model that allows the real‐time tracking of the process and a more reliable scale up process. For this approach, the material behavior is derived from laboratory experiments whereby the scalability is given. Here, the determination of material functions allows an accurate representation of the material behavior for solid bowl centrifuges of different scales. The focus of this paper is the detailed explanation of material related functions for the scale up of decanter centrifuges.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Model‐based Scale Up of Solid Bowl Centrifuges Using Experimentally Determined Material Functions

    New search for: Zhai, Ouwen
    New search for: Baust, Helene
    New search for: Gleiß, Marco
    New search for: Nirschl, Hermann

    The scale up of solid bowl centrifuges is a major challenge as the process and material behavior are complex and difficult to describe. A common approach to forecast the process behavior is to use analytical models and transfer the experience gained from the lab to the industrial scale. In this context, time‐consuming and cost‐intensive pilot scale experiments are necessary. This paper presents a methodology to improve the scale up process and make it more sustainable by using a numerical model that allows the real‐time tracking of the process and a more reliable scale up process. For this approach, the material behavior is derived from laboratory experiments whereby the scalability is given. Here, the determination of material functions allows an accurate representation of the material behavior for solid bowl centrifuges of different scales. The focus of this paper is the detailed explanation of material related functions for the scale up of decanter centrifuges.

    Access

    Check access
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    Title:

    Model‐based Scale Up of Solid Bowl Centrifuges Using Experimentally Determined Material Functions

    Contributors:

    Zhai, Ouwen (author) / Baust, Helene (author) / Gleiß, Marco (author) / Nirschl, Hermann (author)

    Published in:

    Chemie Ingenieur Technik ; 95 ; 189-198

    Publication date:

    2023-01-01

    Size:

    10 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.202200117

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Decanter centrifuge , Material characterization , Modelling , Separation technology

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