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Mass transfer and hydrocarbon biodegradation of aged soil in slurry phase

机译:淤泥相中老化土壤的传质与烃类生物降解

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摘要

Addition of toluene into slurry phase laboratory microcosm is proposed in order to increase desorption rate of hydrocarbons and as an alternative to improve bioavailability of hydrocarbon in aged soils. Our studies showed that toluene has a positive effect on desorption of total petroleum hydrocarbons (TPH). Addition of 14 000 mg toluene/kg of soil, in highly polluted soil, increased the consumption rate of hydrocarbons three times in comparison to control without solvent. In 30 days the initial TPH concentration in soil, 292 000 mg/kg, diminished 45%. Although toluene was able to dissolve complex organic compounds such as asphaltene fraction, it probably yielded a highly toxic toluene-hydrocarbons phase. The inhibitory effect of toluene-TPH was also studied. A substrate inhibition model was used: the k(m) and k(i) constants were 57 and 490 mg TPH/L liquid phase, respectively. Experimental data were well described when the proposed model included sequential desorption and biodegradation phenomena. Damkohler number evaluation showed that rate of mass transfer was the limiting step in overall biodegradation in nonsolvent control. When high concentration of toluene was added, then bioreaction was the limiting step, but inhibitory effect should be considered. However, toluene addition at low concentrations facilitates the biodegradation of aromatic compounds.
机译:提出将甲苯添加到泥浆相实验室缩影中,以提高碳氢化合物的解吸速率,并作为替代方法来提高碳氢化合物在老化土壤中的生物利用度。我们的研究表明,甲苯对总石油烃(TPH)的解吸具有积极作用。与没有溶剂的对照相比,在高度污染的土壤中每公斤土壤添加14000 mg甲苯,碳氢化合物的消耗速率增加了三倍。在30天内,土壤中的TPH初始浓度为292 000 mg / kg,减少了45%。尽管甲苯能够溶解复杂的有机化合物,例如沥青质馏分,但它可能会产生剧毒的甲苯-烃相。还研究了甲苯-TPH的抑制作用。使用底物抑制模型:k(m)和k(i)常数分别为57和490 mg TPH / L液相。当所提出的模型包括顺序解吸和生物降解现象时,实验数据得到了很好的描述。 Damkohler数评估显示,传质速率是非溶剂控制中整体生物降解的限制步骤。当添加高浓度的甲苯时,生物反应是限制步骤,但应考虑抑制作用。然而,低浓度的甲苯添加促进芳族化合物的生物降解。

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