Anders Nørregaard

Anders Nørregaard

(Former)

Topic of thesis: Mixing and oxygen transfer processes in bioreactors

Starting date: January 2013 

Background: M.Sc. in Biotechnology, Technical University of Denmark

Supervisors: Krist V. Gernaey, Brian Madsen, Stuart M. Stocks

Mixing of bioreactors is important, especially for aerobic fermentations where the maximum production rate in growth associated production systems is usually limited by the mixing and the mass transfer capabilities in the system. An open question to be investigated in this project is whether the current reactor design and mixing equipment design are sufficient to obtain the highest productivity. It is indeed known that there is spatial heterogeneity in a large scale bioreactor, but it is not known in detail how this will influence productivity of the reactor at industrial scale.

A unique feature of the project is that data will be collected on industrial scale fermentations. The project should indeed provide basic knowledge about the limiting factors in the oxygen transfer in an industrially relevant fermentation matrix. Experimental data collection on industrial scale fermentations will be possible in collaboration with Novozymes A/S and Novo Nordisk A/S as part of the BIOPRO biotechnology cluster.

View graph of relations

View all »

  • Wiley-VCH

    Germany

    BFI (2020): BFI-level 1

    Central database

    Publisher

  • Biotechnology Journal

    ISSNs: 1860-6768

    Additional searchable ISSN (Electronic): 1860-7314

    Wiley - V C H Verlag GmbH & Co. KGaA, Germany

    BFI (2020): BFI-level 1, Scopus rating (2018): CiteScore 3.61, Web of Science (2019): Indexed yes, ISI indexed (2013): ISI indexed yes

    Central database

    Journal

  • Fungal Biology and Biotechnology

    ISSNs: 2054-3085

    Additional searchable ISSN (Electronic): 2054-3085

    BioMed Central Ltd., United Kingdom

    Indexed in DOAJ

    Central database

    Journal

Download as:
Download as PDF
Select render style:
CVShortLong
PDF
Download as HTML
Select render style:
CVShortLong
HTML
Download as Word
Select render style:
CVShortLong
Word
Download as: To download, please limit the number of search results to 1,000 or less.

ID: 1720266