留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

油水分离技术

吴应湘 许晶禹

吴应湘, 许晶禹. 油水分离技术[J]. 力学进展, 2015, 45(1): 201506. doi: 10.6052/1000-0992-15-001
引用本文: 吴应湘, 许晶禹. 油水分离技术[J]. 力学进展, 2015, 45(1): 201506. doi: 10.6052/1000-0992-15-001
Yingxiang WU, Jingyu XU. Oil and water separation technology[J]. Advances in Mechanics, 2015, 45(1): 201506. doi: 10.6052/1000-0992-15-001
Citation: Yingxiang WU, Jingyu XU. Oil and water separation technology[J]. Advances in Mechanics, 2015, 45(1): 201506. doi: 10.6052/1000-0992-15-001

油水分离技术

doi: 10.6052/1000-0992-15-001
详细信息
    通讯作者:

    吴应湘

  • 中图分类号: O359

Oil and water separation technology

More Information
    Corresponding author: Yingxiang WU
  • 摘要: 随着油田开采时间的增长, 产出液中含水率逐年增加, 部分井液的含水率高达95% 以上, 给目前已有的处理工艺带来新的挑战. 为了解决这些问题, 急需研发新型的油水分离技术, 以解决传统技术所遇到的瓶颈. 该文结合目前油气开发的新需求, 系统地介绍了油水分离的技术现状, 讨论了含油污水深度处理技术的特点, 分析了未来油水分离技术的发展趋势. 同时, 结合力学研究所研制的新型管道式油水分离技术, 详细介绍了柱型分离、导流片型分离、以及T 型管分离等新技术, 提出了新型管道式分离技术具有的技术优势, 可解决稠油开采、海底作业、以及井下分离等难题, 指明了技术发展方向.

     

  • [1] 陈晓东, 侯雯雯, 陈君, 黄瑾. 2014. 陕北油田原油沉降罐加热盘管防腐蚀技术探讨. 腐蚀科学与防护技术, 26: 191-193 (Chen X D, Hou W W, Chen J, Huang J. 2014. Research on corrosion prevention tech- nology in heating coils of settling tank in Shanbei oil field. Corrosion Science and Protection Technology, 26: 191-193).
    [2] 陈文征. 2008. 波纹板油水分离技术研究[硕士论文]. 北京: 中国石油大学(Chen W Z. 2008. Study on the technology of corrugated plate oil-water separation [Master Thesis]. Beijing: China University of Petroleum).
    [3] 邓晓辉, 许晶禹, 吴应湘, 罗东红. 2011. 动态微气泡浮选除油技术研究. 工业水处理, 4: 89-90 (Deng X H, Xu J Y, Wu Y X, Luo D H. 2011. Research on the technology of oil removal by dynamic state micro-bubbles flotation. Industrial Water Treatment, 4: 89-90).
    [4] 丁九亮. 2001. 生物处理方法在渤西终端含油污水COD 处理工艺中的应用. 中国海上油气, 13: 1-7 (Ding J L. 2001. Application practice of biological method in the COD process for oily water at Boxi Terminal. China Offshore Oil and Gas, 13: 1-7).
    [5] 董雯婷. 2013. 沉降罐内油水分离特性研究及结构优化[硕士论文]. 大庆: 东北石油大学(Dong W T. 2013. Oil-water of sedimentation tank separation characteristics and structural optimization [Master Thesis]. Daqing: Northeast Petroleum University).
    [6] 杜红勇. 2005. 双锥型油水分离器的CFD 仿真研究[硕士论文]. 成都: 西南石油学院(Du H Y. 2005. The computational fluid dynamics simulation study of toroidal swirl type oil and water separation device [Master Thesis]. Chengdu: Southwest Petroleum University).
    [7] 杜荣熙. 1999. 过滤法原油脱盐脱水技术研究. 石油炼制与化工, 30: 10-14 (Du R X. 1999. Crude desalting and dewatering by filtration technology. Petroleum Processing and Petrochemicals, 30: 10-14).
    [8] 冯志强, 杨永军, 朱成君, 张绍东, 李忠, 郑树贵, 沈岳, 赵焕卿. 2004. 原油生物破乳剂的研究与应用. 石油大学学报, 28: 93-95 (Feng Z Q, Yang J J, Zhu C J, Zhang S D, Li Z, Zheng S G, Shen Y, Zhao H Q. 2004. Crude oil demulsification and pilot testing with biodemuslsifier. Journal of China University of Petroleum, 28: 93-95).
    [9] 耿高峰. 2012. 旋流器内部流场数值仿真[硕士论文]. 西安: 西安石油大学(Geng G F. 2012. Numerical stimulation of deoiling hydrocyclone [Master Thesis]. Xi'an: Xi'an Shiyou University).
    [10] 龚道童, 吴应湘, 郑之初, 郭军, 张军, 唐驰. 2006. 变质量流量螺旋管内两相流数值模拟.水动力学研究进展, 21: 640-645 (Gong D T, Wu Y X, Zheng Z C, Guo J, Zhang J, Tang C. 2006. Numerical simulation of the oil-water two-phase flow in a helical tube with variable mass flow rates. Journal of Hydrodynamics, 21: 640-645).
    [11] 顾大明, 王吟, 宋中健. 2005. 粗粒化聚并法油水分离技术. 哈尔滨建筑大学学报, 35: 65-67 (Gu D M, Wang Y, Song Z J. 2005. Removal of oil from waste water by coalesce. Journal of Harbin University of Civil Engineering and Architecture, 35: 65-67).
    [12] 贺会群, 李大桥, 于兴军, 肖莉, 刘春全, 艾志久. 2005. 螺旋式油水分离装置分离行为仿真研究. 石油机械, 33: 1-3 (He H Q, Li D Q, Yu X J, Xiao L, Liu C Q, Ai Z J. 2005. Simulation of separation of oil-water mixture by helical oil-water hydrocyclone. China Petroleum Machinery, 33: 1-3).
    [13] 何玉辉. 2002. 含油污水处理技术的发展. 油气田地面工程, 21: 55-56 (He Y H. 2002. The development of oily wastewater treatment technology. Oil-Gas field Surface Engineering, 21: 55-56).
    [14] 黄廷林, 宋维营, 赵建伟. 2003. 采油废水处理中核桃壳滤料再生技术研究. 西安建筑科技大学学报, 35: 228-242 (Huang Y L, Song W Y, Zhao J W. 2003. Regeneration of contaminated walnut as filtrating medium in oily wastewater treatment. Journal of Xi'an University of Architechure & Technology, 35: 228-242).
    [15] 吉庆林, 高鹏, 陈自刚, 武青. 2013. 海上油田电脱分离器结构设计研究. 过滤与分离, 23: 29-34 (Ji Q L, Gao P, Chen Z G, Wu Q. 2013. Research on the structure design of offshore crude oil electric dehydrator. Journal of Filtration & Separation, 23: 29-34).
    [16] 李广军, 郭烈锦. 2000. 螺旋管内油{ 水液液两相流流型. 化工学报, 51: 239-242 (Li G L, Guo L J. 2000. Flow patterns of oil-water liquid-liquid two-phase flow in helically coiled tubes. CIESC Journal, 51: 239-242).
    [17] 李国珍, 肖华, 董守平. 2001. 油水分离技术及其进展. 油气田地面工程, 20: 7-9 (Li G Z, Xiao H, Dong S P. 2001. Technology and development of oil water separation. Oil-Gasfield Surface Engineering, 20: 7-9).
    [18] 李秦, 董冰. 2010. 稠油脱水的优化方法. 辽宁化工, 39: 1270-1272 (Li Q, Dong B. 2010. Optimization method of heavy oil dehydration. Liaoning Chemical Industry, 39: 1270-1272 (in Chinese)).
    [19] 李秦. 2011. 盐辅助稠油微波脱水机理研究[硕士论文]. 西安: 西安石油大学(Li Q. 2011. Experimen- tal research on the microwave treatment of heavy oil with salt [Master Thesis]. Xi'an: Xi'an Shiyou University).
    [20] 李雪辉. 2002. 油田采出水过滤器的原理与应用. 石油机械, 30: 56-58 (Li X H. 2002. The principle and application of the oilfield produced water filter. China Petroleum Machinery, 30: 56-58).
    [21] 李相远, 邵长新, 万世清, 张传江, 宋波. 2005. 核桃壳滤料粒径对油田污水过滤的影响研究. 石油机械, 33: 23-25 (Li X Y, Shao C X, Wang S Q, Zhang C J, Song B. 2005. Influence of grain size of walnut shell filter material on oilfield waste water filtering. China Petroleum Machinery, 33: 23-25).
    [22] 林浩然. 2010. 油水分离器优选实验研究[硕士论文]. 大庆: 大庆石油学院. (Lin H R. 2010. The study of optimization experiment of oil-water separator [Master Thesis]. Daqing: Daqing Petroleum Institute).
    [23] 刘保君. 2013. 多杯等流型油水分离器优化设计及实验研究[博士论文]. 大庆: 东北石油大学(Liu B J. 2013. Structure optimization and experimental research of multicup isoflux oil-water separator [PhD Dissertation]. Daqing: Northeast Petroleum University).
    [24] 刘贵喜. 1997. 脱油型水力旋流器分离准数模型的建立. 石油机械, 25: 17-20 (Liu G X. 1997. Separation model for deoiling hydrocyclone. China Petroleum Machinery, 25: 17-20).
    [25] 马力强, 刘炯天, 岳广傲. 2009. 旋流{ 静态微泡浮选柱净化含油废水试验研究. 中国矿业大学学报, 38: 554-557 (Ma L Q, Liu J T, Yue G A. 2009. Experimental study of treatment of oily waste water by a cyclone static micro-bubble flotation column. Journal of China University of Mining & Technology, 38: 554-557).
    [26] 马少华. 2013. 基于聚结技术的油水分离效果研究[硕士论文]. 天津: 天津大学(Ma S H. 2013. Oil and water separation based on coalescence technology [Master Thesis]. Tianjin: Tianjin University.).
    [27] 毛燎原, 赵杉林. 2006. 无机盐及海水作用下高稠油微波福射法脱水研究. 炼油技术与工程, 36: 15-18 (Mao L Y, Zhao B L. 2006. Study on microwave radiation in the dehydration of high-viscosity oil in the presence of inorganic salt and seawater. Petroleum Refinery Engineering, 36: 15-18).
    [28] 彭忠勋. 1994. 浮选机在油田含油污水处理中的应用. 石油规划设计, 5: 49-50 (Peng Z X. 1994. Appli- cation of oil flotation tank in the treatment of oil containing water. Petroleum Planning & Engineering, 5: 49-50).
    [29] 任彦中. 1995. 高效双向过滤器. 油气田地面工程, 14: 44-45 (Ren Y Z. 1995. High e±ciency bidirectional filter. Oil-Gasfield Surface Engineering, 14: 44-45).
    [30] 史仕荧, 邓晓辉, 吴应湘, 马乃庆. 2011. 操作参数对柱形旋流器油水分离性能的影响. 石油机械, 39: 4-7 (Shi S Y, Deng X H, Wu Y X, Ma N Q. 2011. The effect of operational parameters on the oil-water separation performance of the cylindrical cyclone. China Petroleum Machinery, 39: 4-7).
    [31] 宋金璞, 邵景玲, 赵志伟. 2001. 多级电磁器处理原油生产性试验. 哈尔滨建筑大学学报, 34: 53-56 (Song J P, Shao J L, Zhao Z W. 2001. Treatment of crude oil with electromagnetic equipment with multi-magnetic poles. Journal of Harbin University of Civil Engineering and Architecture, 34: 53-56).
    [32] 孙中雪. 2013. 生物可降解材料PLA 在油水分离方面的研究与应用[硕士论文]. 东北师范大学. (Sun Z X. 2013. Research and application for oil/water separation based on biodearadable materials PLA [Master Thesis]. Northeast Normal University)
    [33] 孙宝江, 颜大椿, 乔文孝. 1999. 乳化原油的超声波脱水研究. 声学学报, 24: 327-331 (Sun B J, Yan D C, Qiao W X. 1999. The study of demulsification with ultrasonic irradiation on oil emulsion. Acta Acustica, 24: 327-331).
    [34] 谭晓飞. 2007. 超声辐射原油破乳技术的研究[硕士论文]. 天津: 天津大学(Tan X F. 2007. Study on demulsification of crude oil emulsions via ultrasonic irradiation [Master Thesis]. Tianjin: Tianjin University).
    [35] 佟曼丽. 2000. 油田化学. 北京: 石油工业出版社, 167-182 (Tong M L. 2000. Oil Field Chemistry. Beijing: Petroleum Industry Press, 167-182).
    [36] 王立洋. 2009. 分岔管路内的油水两相流动研究[博士论文]. 北京: 中国科学院力学研究所(Wang L Y. 2009. An investigation on oil / water two-phase flow inside T-junction pipelines [PhD Dissertation]. Beijing: Institute of Mechanics, Chinese Academy of Sciences).
    [37] 王学会, 朱春梅, 胡华玮, 束松矿, 张宗愚. 2002. 原油破乳剂研究发展综述. 油田化学, 19: 379-381 (Wang X H, Zhu C M, Hu H W, Shu S K, Zhang Z Y. 2002. A review on researches and developments of crude oil demulsifiers. Oilfield Chemistry, 19: 379-381).
    [38] 王志斌. 2006. 水力旋流器分离过程非线性随机特性研究[博士论文]. 成都: 四川大学(Wang Z B 2006. Research on nonlinear stochastic characteristics of separation processes in hydrocyclones [PhD Dissertation]. Chengdu: Sichuan University).
    [39] 王尊策, 于玲玲, 徐艳, 王家新, 苑井武. 2009. 井下油水分离旋流器大锥角参数优化. 大庆石油学院学报, 33: 78-80. (Wang Z C, Yu L L, Xu Y, Wang J X, Yuan J W. 2009. Optimization of the large cone angle parameters of downhole oil/water separation. Journal of Daqing Petroleum Institute. 33: 78-80).
    [40] 魏丛达, 许晶禹, 王立洋, 刘海飞, 吴应湘. 2012. T 形管内油水两相流动规律及其应用. 油气储运. 31: 923-926 (Wei C D, Xu J Y, Wang L Y, Liu H F, Wu Y X. 2012. The law of oil-water two-phase flow in T-shaped pipeline and its application. Oil & Gas Storage and Transportation, 31: 923-926).
    [41] 吴应湘, 魏丛达, 许晶禹, 罗东红, 许庆华, 吴奇霖, 陈颂阳, 张健, 杨浩波, 郭军, 张军, 陆忠韩. 2013. 一种含油污水旋流气浮分离装置. 中国: ZL201310245879.1 (Wu Y C, Wei C D, Xu J Y, Luo D H, Xu Q H, Wu Q L, Chen S Y, Zhang J, Yang H B, Guo J, Zhang J, Lu Z H. 2013. One kind of oily wastewater separation device by hydrocyclone and flotation. China: ZL201310245879.1).
    [42] 夏楠. 2012. 粗粒化技术提高油水分离效率的实验研究[硕士论文]. 大庆: 东北石油大学(Xia N. 2012. Experimental research of coarse graining technology in improving the e±ciency of oil-water separation [Master Thesis]. Daqing: Northeast Petroleum University).
    [43] 肖红. 2007. 三元复合驱采出液性质的研究及油水分离器的优化设计[硕士论文]. 天津: 天津大学 (Xiao H. 2007. Study on properties of produced liquid from ASP flooding and optimal design of oil-water separator [Master Thesis]. Tianjin: Tianjin University).
    [44] 徐远春, 崔连升, 耿艳楼. 1998. 生物破乳剂性能研究. 环境保护, 6: 22-23 (Xu Y C, Cui L S, Geng Y L. 1998. Study on de-emulsification properties of a biosurfactant. Technology of Pollution Control, 6: 22-23).
    [45] 杨伟, 付秀勇. 2014. 超声波破乳脱水技术在塔河油田的应用. 天然气与石油, 32: 23-24 (Yang W, Fu X Y. 2014. Application of ultrasonic demulsificaion dehydration technology in Tahe Oilfield. Natural Gas and Oil, 32: 23-24)
    [46] 叶国祥, 吕效平, 韩萍芳. 2009. 超声波在炼油厂原油破乳脱水脱盐中的应用. 石油学报, 25: 119-123 (Ye G X, Lü X P, Han P F. 2009. Application of ultrasonic on refinery crude oil dewatering and desalting. Acta Petrolei Sinica, 25: 119-123).
    [47] 袁洪涛. 2004. 原油加热沉降器的运行故障及解决方法. 炼油与化工, 4: 38-39. (Yuan H T. 2004. Operation fault of settler of crude oil heater and solution. Refining and Chemical Industry, 4: 38-39).
    [48] 张瑞霞. 2009. 电潜泵井下水力旋流油水分离系统匹配设计[硕士论文]. 北京: 中国石油大学(Zhang R X. 2009. The matching design of downhole oil-water separation system with electric submersible pump and hydrocyclone [Master Thesis]. Beijing: China University of Petroleum).
    [49] 张红, 李少平. 2000. 磁处理原油脱水实验研究. 油气田地面工程, 1: 2-30 (Zhang H, Li S P. 2000. Experiment of magnetic treatment on dehydration in crude oil. Oil-Gasfield Surface Engineering, 1: 2-30).
    [50] 张李. 2005. 重力式油水分离器中的流体力学研究[硕士论文]. 天津: 天津大学(Zhang L. 2005. Research on the hydrodynamics of a primary oil/water separator [Master Thesis]. Tianjin: Tianjin University).
    [51] 张丽稳. 2012. 海上用井下油水分离系统旋流分离器研究[硕士论文]. 北京: 北京化工大学(Zhang L W. 2012. Research on hydrocyclone used in downhole oil-water separation of offshore oil field [Master Thesis]. Beijing: Beijing University of Chemical Technology).
    [52] 赵杉林, 毛燎原. 2007. 海水稀释-微波福射协同作用高稠油脱水研究. 石油学报, 23: 62-66 (Zhao B L, Mao L Y. 2007. Study on the dehydration of high-viscosity oil under joint action of seawater dilution and microwave radiation. Acta Petrolei Sinica, 23: 62-66 (in Chinese)).
    [53] 周永, 吴应湘, 郑之初, 刘秋生, 李清平. 2004. 水分离技术研究之一直管和螺旋管的数值模拟. 水动力学研究与进展, 19: 540-546 (Zhou Y, Wu Y X, Zheng Z C, Liu Q S, Li Q P. 2004. Research on oil-water separation technique1 numerical simulation in both straight and helical pipes. Journal of Hydrodynamics, 19: 540-546).
    [54] 朱林, 熊滨莎, 曲哲. 1994. 原油磁处理降粘研究. 油气田地面工程, 3: 26-31. (Zhu L, Xiong B S, Qu Z. 1994. Research in the viscosity reduction of magnetic treatment on crude oil. Oil-Gasfield Surface Engineering, 3: 26-31 (in Chinese)).
    [55] Barnickel W S. 1914. Process for treating crude oil: US, 1093098.
    [56] Com B E P, Rou D D, Despau X G. 2001. Emulsion characterization by focused ultrasonic waves. Ultra- sonics, 39: 329-334.
    [57] Colic M, Morse W, Miller J D. 2007. The development and application of centrifugal flotation systems in wastewater treatment. International Journal of Environment and Pollution, 30: 296-312.
    [58] Colman D A, Thew M T, Corney D R. 1980. Hydrocyclones for oil-water separation. In: Proc. of the 1st International Conference on Hydrocyclones, BHRA, Cambridge, UK, 11: 143-165.
    [59] Davis R M, Hadley H W, Paul J M. 1995. Method and apparatus for breaking hydrocarbon emulsion: US, 5885424.
    [60] Das G, Das P K, Azzopardi B J. 2005. The split of stratified gas-liquid flow at a small diameter T-junction. International Journal of Multiphase Flow, 31: 514-528.
    [61] Eric J. 1987. Process and apparatus for the removal of oil from an oil-in-water dispersion: Europe, 0119637 A2.
    [62] Gay J C, Triponey G, Bezard C, Schummer P. 1987. Rotary cyclone will improve oily water treatment and reduce space requirement/weight on offshore platforms. Society of Petroleum Engineers, Richardson, TX. Guo-Kun Q. 2005. Analysis on factors influencing crude oil demulsification effectiveness by ultrasonic wave. Petroleum Geology and Recovery E±ciency, 12: 76-78.
    [63] Hana M, Liverud J, Gulbraar A, Bolstad G. 2005. Compact electrostatic coalescer (CECTM) technology{an FPSO experience for innovative separation technology. Advances in Multiphase Separation and Multi- phase Pumping Technologies Conference, Aberdeen, UK: 1-2.
    [64] John S E, Mojtaba G. 2002. Electrostatic enhancement of coalescence of water droplets in oil: a review of the technology. Chemical Engineering, 85: 357-368.
    [65] Li C Y, Liu X. 2012. Numerical simulation on oil-water separation in spiral pipe after different flow velocity. Journal of Liaoning Shihua University, 32: 32-35.
    [66] Liu H F, Xu J Y, Wu Y X, Zheng Z C. 2010. Numerical study on oil and water two-phase flow in a cylindrical cyclone. Journal of Hydrodynamics, 22: 790-795.
    [67] Michelet J F, Sangesland S. 1996. Downhole separation of oil and water. In: Proc. of the 9th Underwater Technology Conference Bergen, Norway.
    [68] Miller J D, Hupka J. 1983. Water de-oiling in an air-sparged hydrocyclone. Filtration & Separation, 20: 279-280.
    [69] Nadarajah N, Singh A, Ward O P. 2002. Evaluation of a mixed bacterial culture for de-emulsification of water-in-petroleum oil emulsions. World Journal of Microbiology and Biotechnology, 18: 435-440.
    [70] Oswaldode A P, Marcel V M, Rafael F J, Jesus R F. 2006. Advances in non-conventional flotation for oily water treatment. Filtration, 6: 31-34.
    [71] Singh B P. 1995. Laboratory test results on ultrasound treated industrial emulsion. Acoustics Letters, 19: 78-82.
    [72] Shi S Y, Xu J Y, Sun H Q, Zhang J, Li D H, Wu Y X. 2012. Experimental study of a vane-type pipe separator for oil-water separation. Chemical Engineering Research and Design, 90: 1652-1659.
    [73] Shi S Y, Xu J Y. 2015. Flow field of continuous phase in a vane-type pipe oil-water separator. Experimental Thermal and Fluid Science, 60: 208-212.
    [74] Taggart D L, Sams G W, Wallace H G, Manen D R. 2008. Compact electrostatic separation process. Offshore Technology Conference.
    [75] Tao R, Xu X. 2006. Reducing the viscosity of crude oil by pulsed electric or magnetic field. Energy & fuels, 20: 2046-2051.
    [76] Veil J A. 1999. Langhus B.G., Belien. DOWS reduce produced water disposal costs. Oil & Gas Journal, 97: 76-85.
    [77] Veil J A. 2001. Interest revives in downhole oil-water separators. Oil & Gas Journal, 99: 47-56.
    [78] Wang L Y, Wu Y X, Zheng Z C, et al. 2008. Oil-water two-phase flow inside T-junction. Journal of Hydrodynamics, 20: 147-153.
    [79] Ye G, Lu X, Han P, Shen X. 2010. Desalting and dewatering of crude oil in ultrasonic standing wave field. Journal of Petroleum Science and Engineering, 70: 140-144.
    [80] Zhang Y, Jiang M, Zhao L, Li F. 2009. Design and experimental study of hydrocyclone in series and in bridge of downhole oil/water separation system. In: Proc. of ASME 2009 28th International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers: 429-434.
  • 加载中
计量
  • 文章访问数:  3852
  • HTML全文浏览量:  691
  • PDF下载量:  3473
  • 被引次数: 0
出版历程
  • 收稿日期:  2015-01-05
  • 修回日期:  2015-04-14
  • 刊出日期:  2015-08-30

目录

    /

    返回文章
    返回