Biodegradation kinetics of o-cresol by Pseudomonas putida DSM 548 (pJP4) and o-cresol removal in a batch-recirculation bioreactor system

Kaymaz Yasin; Babao?lu Aylin; Kasikara Pazarlioglu Nurdan

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Biodegradation kinetics of o-cresol by Pseudomonas putida DSM 548 (pJP4) and o-cresol removal in a batch-recirculation bioreactor system

机译：恶臭假单胞菌DSM 548（pJP4）对邻甲酚的生物降解动力学和分批循环生物反应器系统中的邻甲酚去除

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The biodegradation kinetics of o-cresol was examined by acclimatized P. putida DSM 548 (pJP4) in batch experiments at varying initial o-cresol concentrations (from 50 to 500 mg/L). The kinetic parameters of o-cresol aerobic biodegradation were estimated by using the Haldane substrate inhibition equation. The biodegradation kinetics of o-cresol was investigated. In batch culture reactors, the Maximum specific growth rate (μmax), Monod constant (Ks) and the inhibition constant (Ki) were established as 0.519 h-1, 223.84 mg/L and 130.883 mg/L, respectively. o-cresol biodegradation in a batch-recirculation bioreactor system by immobilized P. putida was also studied. The recycled packed bed reactor system, which was composed of Ca-alginate beads and pumice on which cells immobilized, has been performed to determine possible stability for further developments.

机译：在不同的初始邻甲酚浓度（50至500 mg / L）下，通过批量实验中的驯化恶臭假单胞菌DSM 548（pJP4）检验了邻甲酚的生物降解动力学。使用Haldane底物抑制方程估算邻甲酚好氧生物降解的动力学参数。研究了邻甲酚的生物降解动力学。在分批培养反应器中，最大比生长速率（μmax），Monod常数（Ks）和抑制常数（Ki）分别设置为0.519 h-1、223.84 mg / L和130.883 mg / L。还研究了固定化恶臭假单胞菌在分批循环生物反应器系统中邻甲酚的生物降解作用。由钙藻酸盐珠和浮石组成的循环填充床反应器系统已进行固定，以确定进一步开发可能的稳定性。

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《Electronic Journal of Biotechnology》 |2012年第1期|共10页
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Kaymaz Yasin; Babao?lu Aylin; Kasikara Pazarlioglu Nurdan;
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Biodegradation kinetics of o-cresol by Pseudomonas putida DSM 548 (pJP4) and o-cresol removal in a batch-recirculation bioreactor system

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