Keywords: 
• phenol /
• Trichosporon sp. /
• growth kinetics /
• substrate consumption /
• process optimization

Abstract: An effective phenol-degrading yeast strain, named TX1, was isolated and identified as genus Trichosporon sp. With the data obtained in batch culture of strain TX1 under a series of initial phenol concentrations, the kinetics of cell growth and phenol degradation were investigated to optimize the process. Growth kinetics model of culture system could be fitted with Haldane equation. The parameters of μmax, KS, Ki were 0.667 h-1, 51.14 mg/L, 271.7 mg/L,respectively, which demonstrated that TX1 can degrade phenol rapidly and has a high phenol-tolerance. The variation of observed yield coefficient(YX) with specific growth rate(μg) could be fitted with Pirt model. The maintenance energy coefficient(m) and true growth yield coefficient(YG) were found to be 0.195 h-1 and 2.268 mg/mg, respectively. And then the degradation kinetics equation of phenol was established. Adopted the optimal substrate concentration from analysis above as the operational parameters of the fed-batch reactor, phenol degradation process was optimized with the average volumetric loading increasing to 39 g/(m3·h).