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文中油田微球调驱的研究与应用 被引量:2

Research and Application of Microspheres Profile Control in Wenzhong Oil Field
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摘要 聚合物微球在共聚过程中材料加入AMPS等提高微球的耐温性能,根据PI决策排序表,用PI值筛选先期调剖的井号,利用成熟的冻胶、预交联颗粒等防窜剂封堵油水井间的窜流通道,提高水井的PI值和FD值,堵窜后或者PI90大于平均值的水井采用交联聚合物微球在线调驱工艺,用FD值优化微球的"四个度"。这种"窜堵远驱"的施工模式符合国内的堵调趋势,是国内堵调工艺的一个亮点。实施后井组稳产基础增强,自然递减下降。 The heat resistance of polymer microsphere materials can be improved by adding AMPS in the copolymerization process According to PI decision sorting table, the value of PI was used to carry out profile control well selection, anti-channeling agents (sophisticated gel, pre-crosslinked particles,etc.) were used to block channeling-path between oil-water wells, and PI value and FD value of the wells were increased, online profile control of the wells whose channeling-path had been plugged or whose PI90 was greater than the average was carried by using cross-linked polymer microspheres, and FD value was used to optimize microspheres "four degrees ".This construction mode can meet the domestic blocking trend, is a bright spot in the blocking process. After the implementation, stable production of the well group was ensured, the natural decline was reduced.
出处 《辽宁化工》 CAS 2013年第11期1354-1356,共3页 Liaoning Chemical Industry
关键词 文中油田 FD值 聚合物微球 PI决策技术 Wenzhong oil fields FD value polymeric microspheres PI decision technology
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  • 1衣哲.聚合物微球调驱机理研究[J].精细石油化工进展,2013,14(6):1-4. 被引量:1
  • 2Li J J, Jiang H Q, Jiang L L. et al. A mathematical model and solution for mass transfer and diffusion after a polymer flood wilh flow channel[J]. Petroleum science and lechnology, 2012,30 : 739-750.
  • 3Tongwa P, Nygaard R, Bai B J. Evaluation of a nanocomposite hydrogel for water shut-off in enhanced oil recovery applications: Design, synthesis, and characterization [J]. Journal of Applied Polymer Science, 2013, 128(1).. 787-794.
  • 4Ranganathan R, Lewis R, Mccool C S, et al. An experimental study of the in situ gelation behavior of a polyacrylamide/ aluminum citrate "colloidal dispersion" gel in a porous medium and its aggregate growth during gelation reaction [J]. SPE 37220, 1997..103-116.
  • 5Chauveteau G, Tabary R, Blin N, et al. Disproportionate permeability reduction by soft preformed microgels [J]. SPE/ DOE89390, 2004:1-8.
  • 6Frampton H, Morgan J C, Cheung S K, et al. Development of a novel waterflood conformance control system [J]. SPE/ DOE 89391, 2004:1-8.
  • 7Rousseau D, Chauveteau G, Renard M, et al. Rheology and transport in porous media of new water shutoff/ conformance control microgels [J]. SPE 93254, 2005 : 1-12.
  • 8Zaitoun A, Tabary R, Rousseau D, et al. Using microgels to shut off water in a gas storage well [J]. SPE 106042, 2007 : 1-8.
  • 9Lin M Q, Guo J R, Xu F Q, et al. Study on the matching between cross-linked polymer microspheres and nuclear-pore membranes [J]. Adv. Mater. Res., 2011,160-162:1346-1353.
  • 10Zhao Hua, Meiqin Lin, Jinru Guo, et al. Study on plugging performance of cross-linked polymer microspberes with reservoir pores[J]. Journal of petroleum science and engineering, 2013,105:70 75.

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