共查询到19条相似文献,搜索用时 121 毫秒
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井下作业废水处理的试验研究 总被引:13,自引:5,他引:8
油田开发过程中,井下作业工艺尤为复杂,施工类型繁多,容易发生各种污染。针对压裂施工排出井管返出液的特点,重点提出利用絮凝-隔油法,之后再用次氯酸钠结合紫外光对废水进行深度处理,可氧化分解难处理的部分高分子有机化合物的污染。结果表明:在适宜的处理条件下,该法可有效去除水中CODCr 和Oil ,去除率分别为98.9%、98.3%。 相似文献
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催化氧化复合生物技术处理油气田压裂返排液 总被引:1,自引:1,他引:0
针对油气田压裂返排液处理难度大的问题,以四川某气田井组压裂返排液为研究对象,通过对其水质特征和治理技术现状的分析,提出催化氧化复合生物处理工艺并进行了现场实验。实验结果表明:该技术对于压裂返排液COD去除效果明显,最终出水COD浓度均降至100mg/L以下,COD去除率达到98%以上;G-BAF生化系统进水盐度在0.5%~5%时,系统适应性非常好,有机物去除率达93%以上;当盐度提高到8%时,有机物去除率仍能保持在84%左右,G-BAF生化系统适合高盐度压裂返排液的处理;压裂返排液出水主要污染指标COD浓度、氨氮浓度、SS浓度、pH值均达到GB 8978—1996《污水综合排放标准》一级标准,出水可用于油田及污水处理站设备清洁、钻井岩屑清洗等,实现废水综合利用。 相似文献
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混凝沉降-生物膜法处理制革废水 总被引:8,自引:0,他引:8
采用混凝沉降-生物膜法处理蓝湿牛皮制革废水。工程实践证明:该法对废水COD和BOD的去除率可达94%以上,且对废水的脱色效果良好,是一种合理有效的处理皮革废水工艺路线。 相似文献
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对注空气低温氧化辅助热采废水的处理进行实验研究,先进行混凝处理,再分别采用Fenton氧化法和二氧化氯氧化法对废水氧化处理。结果表明后者效果较好,二氧化氯最佳投加量为300 mg/L,催化剂活性炭-Ni投加量为2.5 g/L,反应2 h,COD_(Cr)降低至129.14 mg/L,去除率达到95.29%,出水无色透明。二氧化氯氧化法适合于海上油田注空气低温氧化辅助热采废水的处理。 相似文献
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铝阳极脉冲电化学法处理难降解印染废水的实验研究 总被引:9,自引:0,他引:9
研究铝阳极脉冲电化学法处理印染废水的可行性及处理效果。试验结果表明:电絮凝法对废水的色度和COD具有良好的去除效果。实验确定的电絮凝法处理条件为:电流强度2A,电解时间90min,色度和COD的去除率最高分别为95%和92%。 相似文献
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Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin,Colorado 下载免费PDF全文
Ella L. Walker Aspen M. Anderson Laura K. Read Terri S. Hogue 《Journal of the American Water Resources Association》2017,53(4):839-853
Water use for oil and gas development (i.e., hydraulic fracturing) is a concern in semiarid basins where water supply is often stressed to meet demands, and oil and gas production can exacerbate the situation. Understanding the impacts of water use for hydraulic fracturing (HF) on water availability in semiarid regions is critical for management and regulatory decisions. In the current work, we quantify water use for HF at several scales — from municipal to state‐wide — using the IHS Enerdeq database for the South Platte Basin. In addition, we estimate produced water (a by‐product of oil and gas production), using data from the Colorado Oil and Gas Conservation Commission to explore reuse scenarios. The South Platte River Basin, located in northeastern Colorado, encompasses the Denver‐Metro area. The basin has one of the most productive oil and gas shale formations in Colorado, with much of the production occurring in Weld County. The basin has experienced higher horizontal drilling rates coupled with an increasing population. Results show water use for horizontal and vertical wells averages 11,000 and 1,000 m3, respectively. Water use for HF in the South Platte Basin totaled 0.63% of the basin's 2014 total water demand. For Weld County, water use for HF was 2.4% of total demand, and for the city of Greeley, water use was 7% of total demand. Produced water totaled 9.4 Mm3 in the basin for 2014, which represents 42% of the total water used for HF. 相似文献
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介绍滴定法测定水中CODcr的不确定度分析。用因果图分析了测量器具、标准溶液、环境条件和测量重复性等因素对测量不确定度的贡献,分析结果给出水中CODcr测量的扩展不确定度为2.2%。 相似文献
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张烂漫 《中国环境管理干部学院学报》2002,12(4):40-43
南汇大治河化学需氧量(CODcr)含量的调查结果表明,大治河的CODcr含量逐年上升,水质从Ⅲ级水体下降到Ⅳ级水体,个别断面有恶化到Ⅴ级水源的趋势,通过分析认为CODcr含量的上升与工业废水大量不达标排放以及生活污水的乱排放有关。 相似文献
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干酵母生产废水是一种高浓度有机废水,COD高达13,000mg/L,色度在900倍以上。原方案采用厌氧、硝化(曝气)、反硝化、化学混凝等工艺,但水质不能达到排放标准,且运行成本高。采用EM(有效微生物)技术对原方案进行改造后,废水处理收到较好的效果,并降低了运行成本。 相似文献
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J. W. Gary C. S. Simmons J. F. McBride 《Journal of the American Water Resources Association》1989,25(6):1205-1216
ABSTRACT: The conductivity of air, mineral oil (relative viscosity 77), and a light nontoxic oil (relative viscosity 4.7) was measured in three porous media: a sand, loamy sand, and a silt loam. The measurements were made over a range of water contents for each porous medium. Small volumes of air were present as well as significant amounts of water during most of the oil conductivity measurements. The results were compared to two methods for calculating conductivities of immiscible fluids in water-wet porous media. A new equation that accounts for swelling and for the gas slippage effect in very small pores was formulated for use with these methods The observed conductivities, spanning seven orders of magnitude, agree reasonably well with calculated values. Only three soil parameters are required to calculate the conductivities: (1) the saturated conductivity of water, (2) the saturated conductivity of the immiscible fluid of interest, and (3) a pore size index value that is obtained from an estimate from the water release curve of the porous material. Remediation of organic liquid spills is briefly discussed to illustrate the practical applications of gas phase conductivities, as well as those for immiscible organic liquid phases. It is concluded that, in light of spatial variation under field conditions, the method presented for calculating values of three-phase conductivities will be useful in the management of immiscible organic liquid spills and leaks. 相似文献