1) oilfield wastewater 采油废水 1. By samples experiment of different batches of microbiological preparations to verifying the effect of the removal rate of CODCr and petroleum hydrocarbon degrad
ation of oilfield wastewater treatment, a method using Victory Blue B1 for detecting the quality of the microbiological preparations of oilfield wastewater treatment was proposed. 通过不同批次制剂样品对采油废水的 CODCr 去除率和石油烃降解效果的检测实验,提出了以 维多利亚蓝 BI 来检测油田废水微生物制剂质量的检测方法。 2. The photoelectrocatalytic degradation of oilfield wastewater containing high content of chlorine was studied in TiO_2 aqueous suspensions. 以高压汞灯为光源,考察了在光催化、电氧化、光电催化及光电催化/H2O2 体系中降解实际 油田采油废水的效率。 3. A catalytic advanced oxidation process based on copper charging activated carbon and DO in wastewater has been studied for polishing oilfield wastewater treated by coagulation sedimentation of which COD could not meet the discharge standard. 采用载铜活性炭和废水中溶解氧体系 ,用催化氧化法深度去除采油废水中的 COD。 2) Oil extraction wastewater 采油废水 1. Present situation and prospect on refilling treatment technology of oil extraction wastewater; 采油废水回注处理技术的现状及展望 2. Experimental study on the treatment of oil extraction wastewater with new demulsifying agent; 新型破乳剂用于采油废水处理的试验研究 3. When inoculated with Phanerochaete chrysosporium, peat fixed biofilm reactor can obviously raise the efficiency of treating oil extraction wastewater and quicken the startup of the reactor. 在泥炭固定化生物膜反应器中接种 Phanerochaetechrysosporium 可明显提高采油废水的处 理效率,并且能够快速启动反应器。 3) produced water 采油废水 1. Epcon compact flotation unit is a new treatment technology of produced water which is developed to meet the Norwegian emissions bill. EPCON 紧凑型气浮装置是为了满足挪威排放法案而研制的采油废水处理新技术,综合应用旋 转离心分离和气浮分离的工作原理对采油废水进行处理,大幅度降低了采油废水的含油量。 2.
The treatment on produced water with coagulation and Fenton process was followed with GC-MS chromatography. 对采油废水进行混凝预处理后进行了 Fenton 处理 ,确定了 Fenton 试剂处理采油废水的最佳 配比为 H2 O2 ∶Fe2 +=5 0mmol L :1mmol L。 3. However, with the development of the oil recovery technology and the exaltation of the crude oil yield, the amount of the accompanying wastewater (produced water) begin to increase year after year and the arbitrarily discharged wastewater has caused serious environmental problem. 本课题的主要目的在于设计一套适合采油废水特点的污水处理工艺， 实现采油废水的达标排 放。 4) oil-field wastewater 采油废水 1. Experimental study on the transfer and degradation of pollutants in the treatment of oil-field wastewater by using hydrolysis acidification-anoxic process; 水解酸化-缺氧法处理采油废水的污染物迁移降解试验研究 2. The combined process of Anaerobic Baffled Reactor(ABR) and Biological Aerated Filter(BAF) was used to treat the oil-field wastewater. 进行了利用折流板厌氧反应器(ABR)—曝气生物滤池(BAF)工艺处理江汉油田马-25 污水处理 站采油废水的中试研究,主要考察了 ABR 的除油效果、 提高废水可生化性的作用以及 BAF 的 运行参数、处理效果等。 3. In order to find method to improve biodegradation of oil-field wastewater,the biological activated carbon fluidized bed(BACFB) process for oil-field wastewater treatment in aerobic condition is studied. 为了解决采油废水生化处理难度大、处理效率低等问题,采用颗粒活性炭为载体的内循环流 化床反应器工艺在好氧条件下净化采油废水。 5) oil production wastewater 采油废水 1. Treatment of oil production wastewater by electrolytic oxidation method; 电解氧化法处理采油废水 6) high-salinity produced wastewater 高含盐采油废水 1. Treatment of high-salinity produced wastewater by aerobic activated sludge; 活性污泥法处理高含盐采油废水研究