Abstract

The biodegradation of phenol, p-cresol, and phenol plus p-cresol mixtures was evaluated using Pseudomonas putida ATCC 17484 in aerobic batch reactors. Shake-flask experiments were performed separately using growth medium with initial nominal concentrations of phenol (50–600 mg L−1) and p-cresol (50–600 mg L−1) as well as phenol (50–600 mg L−1) plus p-cresol (50–600 mg L−1). The complete degradation of phenol and p-cresol was achieved within 48 h and 48–56 h, respectively, for all initial concentrations of phenol and p-cresol. The maximum cell growth rate using phenol (μmax,P = 0.45 h−1) was much faster than that using p-cresol (μmax,C = 0.185−1 h). The larger Ki value for phenol (310.5 mg L−1) revealed that the P. putida cells had a higher resistance to phenol inhibition compared with p-cresol (243.56 mg L−1). A mixture of phenol and p-cresol in batch experiments resulted in the complete removal of phenol within 52–56 h for initial phenol concentrations of 50–500 mg L−1. The time needed to remove p-cresol completely was 48–56 h for initial p-cresol concentrations of 50–500 mg L−1. In the continuous-flow immobilized cells reactor, the degradation efficiency for phenol and p-cresol was 97.6 and 89.1%, respectively, at a stable condition.

Highlights

  • IntroductionPhenol and its derivatives are toxic organic components often found in various petroleum and chemical industries [1]

  • The biodegradation p-crewas validated by conducting a continuous stirred-tank bioreactor with immobilized cells in sol was validated by conducting a continuous stirred-tank bioreactor with immobilized

  • Model agreed with experimental data very data well very in thewell continuoussidered in the modelThe system

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Summary

Introduction

Phenol and its derivatives are toxic organic components often found in various petroleum and chemical industries [1]. Phenol has been regarded as a toxic pollutant to aquatic living organisms imparted as low as concentrations of 0.005 mg L−1 [2]. There has been serious environmental concern due to the persistent toxicity of phenol and its derivatives [3]. Much industrial wastewater contains the major phenol and its derivatives such as phenol and cresols [4,5]. The removal of these phenolic contaminants to a satisfactorily low level in wastewater becomes an urgent task

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