利用生物降解模型预测生物刺激生物修复的速率

Justin Nnaemeka Okorondu, L. Izunobi, Sylvester Ifunanya Okorondu, Joseph Ikechukwu Nwachukwu, S. Abrakasa
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引用次数: 0

摘要

对于尼日利亚尼日尔三角洲受石油泄漏影响的土壤,已经有几种修复技术,但由于所使用的方法要么不适合环境,要么对尼日尔三角洲不同的土壤类型无效,因此没有得到期望的结果。生物修复是一种具有成本效益和环境友好的技术,它利用微生物降解有机污染物的能力,导致完全矿化。它已成为尼日利亚最受欢迎的溢油土壤修复技术。本研究旨在利用原油污染/尖刺土壤的生物刺激生物降解实验的生物降解比率建立生物降解模型。模型设计标准包括以10kg/kg (10% w/w)的比例将不同数量的养分(n.p.k.肥料)接种到受原油影响的土壤介质中。呈现营养物的培养基为水,水的饱和度从30%到80%不等。采用气相色谱法(GC-FID)检测诊断比值(nC17/Pr, nC18/Ph, (nC17+nC18)/(Pr+Ph)的变化。所得结果用于开发生物刺激生物降解模型,以预测/预测生物修复率,假设设计考虑是一致的。采用的模型被限制为诊断比(nC17+nC18)/(Pr+Ph),该诊断比描述了所有样品集的生物刺激生物降解。模型采用线性回归模型方程y=c+bx。
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Forecasting the Rate of Biostimulated Bioremediation Using Biodegradation Models
There have been several remediation techniques for oil spill-impacted soil in the Nigerian Niger Delta which has not given the much-desired results as the methods used were either inappropriate for the environment or ineffective for the different soil types in the Niger Delta. Bioremediation is a cost-effective and environmentally friendly technology that exploits the capabilities of microorganisms to degrade organic pollutants leading to complete mineralization. It has become the most preferred technique for oil spill remediation on soil in Nigeria. This study is aimed at developing a biodegradation model using biodegradation ratios of a biostimulated biodegradation experiment on crude oil polluted/spiked soil. The model design criteria involve inoculating varying amounts of nutrients (N.P.K fertilizer) into a soil media impacted with crude oil at a ratio of 10kg/kg (10% w/w). The medium for the presentation of the nutrient was water and the volume of water used varied from 30% to 80% saturation.  Samples were taken at an interval of about three months to monitor the changes in diagnostic ratios (nC17/Pr, nC18/Ph, (nC17+nC18)/(Pr+Ph) using gas chromatography (GC-FID). Results obtained were used to develop a biostimulated biodegradation model to forecast/predict the rate of bioremediation assuming the design considerations are consistent. The model adopted was constrained to the diagnostic ratio (nC17+nC18)/(Pr+Ph) which describes the biostimulated biodegradation for all the sample sets. A linear regression model equation, y=c+bx was employed in the model.
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