Microfluidic study of effects of flow velocity and nutrient concentration on biofilm accumulation and adhesive strength in the flowing and no-flowing microchannels

@article{Liu2019MicrofluidicSO,
  title={Microfluidic study of effects of flow velocity and nutrient concentration on biofilm accumulation and adhesive strength in the flowing and no-flowing microchannels},
  author={Na Liu and Tormod Skauge and David Landa-Marb{\'a}n and Beate Hovland and Bente Thorbj{\o}rnsen and Florin A. Radu and Bartek Florczyk Vik and Thomas Ernst Baumann and Gunhild B{\o}dtker},
  journal={Journal of Industrial Microbiology & Biotechnology},
  year={2019},
  volume={46},
  pages={855-868}
}
Biofilm accumulation in porous media can cause pore plugging and change many of the physical properties of porous media. Engineering bioplugging may have significant applications for many industrial processes, while improved knowledge on biofilm accumulation in porous media at porescale in general has broad relevance for a range of industries as well as environmental and water research. The experimental results by means of microscopic imaging over a T-shape microchannel clearly show that… CONTINUE READING
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A Pore-Scale Model for Permeable Biofilm: Numerical Simulations and Laboratory Experiments

David Landa-Marbán, Na Liu, +5 authors Florin A. Radu
  • 2019
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