PPTCC 1015S Strain of Bacillus cereus as an Effective Medium for Removing Azo Dyes; Acid Blue 113 and Acid Orange 7

Journal of Advances in Environmental Health Research Pub Date : 2023-09-29 DOI:10.34172/jaehr.1307

Pardis Mokri, Bahareh Rahimian Zarif, Sirwan Mohammadi Azar, Bahram Ebrahimi

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Abstract

Background: Bio-remediation methods of organic pollutants are promising due to their high efficiency, low cost, and green chemistry. These methods are effective alternatives to traditional elimination methods. Methods: Bacillus cereus PTCC 1015S strain was used to eliminate acid blue 113 (AB113) and acid orange 7 (AO7) from aqueous solutions. The bacteria were activated in the Luria Bertani Broth (MILLER) culture medium. The effective parameters such as incubation time and temperature, pH of dye solution, dye concentration, and the bacterial inoculation quantity on decolorization were investigated. Kinetic and thermodynamic studies were done to clarify the different aspects of the introduced method. Also, the reliability of the method to remove studied dyes was investigated in dye factory wastewater samples. Results: The first-order kinetic model was the best model to describe the kinetics of decolorization. The obtained thermodynamic data showed that the elimination process was endothermic (∆H0=+29.03, 30.53) while it was spontaneous (∆G0<0) for both studied dyes and so entropy change (∆S0=+109.63, 116.32) was an effective force in the decolorization. Under optimized conditions, B. cereus PTCC 1015S showed high average removal; 98.5 and 99.3 % for AB113 and AO7 respectively in dye model solutions. The removal efficiency was more than 85 % for both studied dyes in wastewater spiked samples. Conclusions: The B. cereus PTCC 1015 strain was capable of being exploited in the removal of AB113 and AO7 dye molecules as an affordable and eco-amiable method for the treatment of aqueous samples contaminated with the studied azo dyes.

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PPTCC 1015S 蜡样芽孢杆菌菌株作为去除偶氮染料；酸性蓝 113 和酸性橙 7 的有效培养基

背景：有机污染物的生物修复方法因其高效、低成本和绿色化学性质而前景广阔。这些方法是传统消除方法的有效替代品。方法：利用蜡样芽孢杆菌 PTCC 1015S 菌株消除水溶液中的酸性蓝 113（AB113）和酸性橙 7（AO7）。细菌在 Luria Bertani Broth (MILLER) 培养基中活化。研究了培养时间和温度、染料溶液的 pH 值、染料浓度和细菌接种量等参数对脱色的影响。还进行了动力学和热力学研究，以阐明所引入方法的各个方面。此外，还在染料厂废水样本中调查了该方法去除所研究染料的可靠性。研究结果一阶动力学模型是描述脱色动力学的最佳模型。所获得的热力学数据表明，所研究的两种染料的消除过程都是内热的（∆H0=+29.03, 30.53），而消除过程都是自发的（∆G0<0），因此熵的变化（∆S0=+109.63, 116.32）是脱色过程中的有效作用力。在优化条件下，蜡状芽孢杆菌 PTCC 1015S 对染料模型溶液中的 AB113 和 AO7 的平均去除率较高；分别为 98.5 % 和 99.3 %。在废水加标样品中，对所研究的两种染料的去除率均超过 85%。结论蜡样芽孢杆菌 PTCC 1015 菌株可用于去除 AB113 和 AO7 染料分子，是处理受所研究的偶氮染料污染的水样的一种经济、环保的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Advances in Environmental Health Research

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