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    An Approach for Scale‐Up of Geometrically Dissimilar Orbitally Shaken Single‐Use Bioreactors

    New search for: Werner, Sören
    New search for: Olownia, Johanna
    New search for: Egger, Daniel
    New search for: Eibl, Dieter

    An initial approach for scaling up geometrically dissimilar orbitally shaken bioreactors is presented. A novel ShakerBag Option for Multitron Cell shaking incubators allows a rapid increase in working volume from small TubeSpin bioreactors or shake flasks up to 10 L, thus offering a simple and cost‐efficient alternative to present systems for scale‐up. The engineering parameters for scale‐up of the orbitally shaken single‐use bags were determined using traditional methods. Modern computational fluid dynamics based methods were used to gain a deeper insight into the fluid flow behavior. Furthermore, mass propagation of plant cell suspensions (Nicotiana tabacum and Vitis vinifera), as well as cell expansion and production of protein complexes using insect cells (Sf‐9), show the potential of orbitally shaken single‐use bags.

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    An Approach for Scale‐Up of Geometrically Dissimilar Orbitally Shaken Single‐Use Bioreactors

    New search for: Werner, Sören
    New search for: Olownia, Johanna
    New search for: Egger, Daniel
    New search for: Eibl, Dieter

    An initial approach for scaling up geometrically dissimilar orbitally shaken bioreactors is presented. A novel ShakerBag Option for Multitron Cell shaking incubators allows a rapid increase in working volume from small TubeSpin bioreactors or shake flasks up to 10 L, thus offering a simple and cost‐efficient alternative to present systems for scale‐up. The engineering parameters for scale‐up of the orbitally shaken single‐use bags were determined using traditional methods. Modern computational fluid dynamics based methods were used to gain a deeper insight into the fluid flow behavior. Furthermore, mass propagation of plant cell suspensions (Nicotiana tabacum and Vitis vinifera), as well as cell expansion and production of protein complexes using insect cells (Sf‐9), show the potential of orbitally shaken single‐use bags.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    An Approach for Scale‐Up of Geometrically Dissimilar Orbitally Shaken Single‐Use Bioreactors

    New search for: Werner, Sören
    New search for: Olownia, Johanna
    New search for: Egger, Daniel
    New search for: Eibl, Dieter

    An initial approach for scaling up geometrically dissimilar orbitally shaken bioreactors is presented. A novel ShakerBag Option for Multitron Cell shaking incubators allows a rapid increase in working volume from small TubeSpin bioreactors or shake flasks up to 10 L, thus offering a simple and cost‐efficient alternative to present systems for scale‐up. The engineering parameters for scale‐up of the orbitally shaken single‐use bags were determined using traditional methods. Modern computational fluid dynamics based methods were used to gain a deeper insight into the fluid flow behavior. Furthermore, mass propagation of plant cell suspensions (Nicotiana tabacum and Vitis vinifera), as well as cell expansion and production of protein complexes using insect cells (Sf‐9), show the potential of orbitally shaken single‐use bags.

    Access

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    Title:

    An Approach for Scale‐Up of Geometrically Dissimilar Orbitally Shaken Single‐Use Bioreactors

    Contributors:

    Werner, Sören (author) / Olownia, Johanna (author) / Egger, Daniel (author) / Eibl, Dieter (author)

    Published in:

    Chemie Ingenieur Technik ; 85 ; 118-126

    Publication date:

    2013-02-01

    Size:

    9 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.201200153

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Plant cells , Insect cells , Single‐use bag , Engineering characteristics , Orbitally shaken , Shake flask

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