Characterization of biofilm distribution in hollow fiber membranes using Compressed Sensing Magnetic Resonance Imaging
2020
Simkins, J.W. | Schuhmann, S. | Guthausen, G. | Heijnen, M. | Codd, S.L. | Seymour, J.D.
Biofilm formation during ultrafiltration membrane operation was investigated by Compressed Sensing Magnetic Resonance Imaging (MRI), with tryptic soy broth included in the feed stream to stimulate microbial growth. Biofilm development was visualized as growing layer characterized by reduced T₁ relaxation time, and its progression as monitored by MRI was compared with classical integral filtration parameters such as permeate flux J, transmembrane pressure Δp and permeability Lₚ to document fouling behavior. Over three days of growth a change in the filtration process could be observed in both measurements, with Lₚ decreasing dramatically over time as the surface-associated biofilm increased in thickness. Following cessation of filtration and the associated drop in Δp, the biofilm detached from the lumen wall and dispersed throughout the feed channel. Compressed Sensing MRI velocity and intensity measurements facilitate fast imaging during filtration processes, providing new possibilities for the investigation of biofouling in filtration membranes.
Show more [+] Less [-]AGROVOC Keywords
Bibliographic information
This bibliographic record has been provided by National Agricultural Library
