Kinetic Evaluation of a Field-Scale Activated Sludge System for Removing Petroleum Hydrocarbons from Oilfield-Produced Water

Environmental Progress Pub Date : 2005-04-01 DOI:10.1002/EP.10042

Gilbert T. Tellez, N. Nirmalakhandan, J. Gardea-Torresdey

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引用次数: 50

Abstract

Produced water is the single largest volume of wastewater generated by the oil and gas industry. Toxic petroleum hydrocarbons found in oilfield-produced waters have increasingly become the major environmental problem facing the U.S. and world oil and gas industry. Uncontrolled releases to the environment using outdated and inefficient technological control systems and methods have continually put surface and ground water environments at risk. In turn, this has placed the oil and gas industries with increasing environmental regulatory compliance costs. With the decline in oil and natural gas prices and the introduction of more stringent produced water surface discharge permit actions, many of these wells are nearing their economic limit. These low-volume marginal wells are being plugged and abandoned because the production, maintenance, treatment, and disposal costs are higher than the selling price. Therefore, in an effort to keep many of our nation's mature oil and gas fields productive, alternative technologies must be evaluated. This research project provided a comprehensive treatment of produced waters using an activated sludge system. The kinetic coefficients determined resulted in a total petroleum hydrocarbon removal efficiency of 99% at a produced water flow rate of 1890 L/day, and a mean cell residence time of 20 days. Kinetic coefficients were determined to be 0.69 (mg/MLSS)/mg total n-alkanes (TNA) and 0.01, 0.44, 2.00, and 0.27 day−1 for Y, kd, k, Ks, and μmax, respectively. © American Institute of Chemical Engineers Environ Prog, 2004

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油田规模活性污泥系统去除采出水中石油烃的动力学评价

采出水是油气行业产生的最大的废水。在油田采出水中发现的有毒石油碳氢化合物日益成为美国和世界油气行业面临的主要环境问题。使用过时和低效的技术控制系统和方法向环境中不受控制的排放不断地使地表水和地下水环境处于危险之中。反过来，这也增加了油气行业的环保合规成本。随着石油和天然气价格的下降以及采出水地表排放许可证的出台，许多此类井已接近其经济极限。由于生产、维护、处理和处置成本高于销售价格，这些小产量的边际井正在被封堵和废弃。因此，为了保持我国许多成熟油气田的产量，必须对替代技术进行评估。本研究项目采用活性污泥系统对采出水进行综合处理。测定的动力学系数表明，在产出水流量为1890 L/天、平均细胞停留时间为20天的情况下，总石油烃去除效率达到99%。Y、kd、k、Ks和μmax的动力学系数分别为0.69 (mg/MLSS)/mg总正烷烃(TNA)和0.01、0.44、2.00和0.27 d−1。©美国化学工程师学会环境项目，2004

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Environmental Progress

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