Abstract
Hydrophobicity of the solid surface and microbial cell surface is important factor for the development of biofilms applied in bioengineering systems. An adsorption of phenanthrene was used for analysis of the hydrophobicity of support fibers and bacterial cell surfaces within the biofilter of wastewater. The adsorption of phenanthrene was measured by synchronous fluorescence spectrometry. Cell surface hydrophobicity does not depend on the fixation procedure, pH of microbial suspension, and has no clear correlation with an adherence of the cells to hexadecane droplets. Notwithstanding high hydrophobicity of bacterial cells, the hydrophobicity of intact biofilm is determined by the hydrophobicity of the support fibers. New indexes were proposed to evaluate the reactor performance related with hydrophobic interactions within the biofilm. These indexes showed that significant share of hydrophobic sites within the nitrifying biofilm is protected from the hydrophobic interactions between the cells and environment.
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