Lithologic Reservoirs ›› 2012, Vol. 24 ›› Issue (3): 123-128.doi: 10.3969/j.issn.1673-8926.2012.03.023

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Technical progress for improving waterflood recovery efficiency of foreign high water cut sandstone oilfield

WANG Qiuyu   

  1. Research Institute of Geological Science, Shengli Oilfield Company, Sinopec, Dongying 257015, China
  • Online:2012-06-20 Published:2012-06-20

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Abstract:

Currently, the high water cut oilfield in eastern China have met many technical bottleneck problems that underground oil-water systems need to be rebuilt and well-patter need to be improved further. Based on the development data from 47 foreign high water cut sandstone oilfields, the waterflood development characteristics of foreign high water cut oilfields were summarized, and the redevelopment techniques and measures in high water cut stage of them were analyzed in detail. Furthermore, the new theories and technologies on geology, reservoir engineering and technology were also discussed. These measures adopted in foreign high water cut sandstone oilfields can provide certain guidance for improving waterflood recovery efficiency in similar oilfield of eastern China.

Key words: gas well, static pressure at bottomhole, gas deviation factor, calculation method

[1] 王玉普.大型砂岩油田高效开采技术[M].北京:石油工业出版社,2006:1-3.
[2] Хасанов М М,Антоненко Д А,Загуренко А Г. Методы повыш-ения эффективности разработки нефтяных месторождений на поздней стадии[J]. Нефтяное хозяйство,2008,(3):15-17.
[3] 马翠,译.俄罗斯及中亚油田高含水期开采的特点及采取的有效提高采收率措施[J].中外科技情报,2004,85(7):103-106.
[4] 徐春梅,张荣,马丽萍. 注水开发储层的动态变化特征及影响因素分析[J].岩性油气藏,2010,22(增刊):90-94.
[5] Cimic M. Russian mature field redevelopment [R]. SPE 102123,2006.
[6] Ding E,Hurrison P,Dozzo J,et al. Prudhoe bay:Rebuilding a giant oil and gas full field model[R]. SPE 120967,2009.
[7] Gomez Y,Mercado S D,Hidemasa Ikawa,et al. Top-down intelligent reservoir modeling(TDIRM)[R]. SPE 124204,2010.
[8] 温希娟,译.罗马什金油田开发晚期的原油稳产[J].国外油田工程,2010,26(1):5-7.
[9] Абдулмазитов Р Г,Насыбуллин А В,Лифантьев А В. Особен-ности построения геологической модели на поздней стадии разработки Ромашкинского месторождения [J]. Нефтяное хозяйство,2007,(7):23-25.
[10] 温希娟,译.油田开发晚期提高开发效果的方法[J].国外油田工程,2010,26(1):1-4.
[11] 马翠,译.开发陆源油层的最佳注水压力[J].国外油气地质信息,2006,12(1):3-5.
[12] 孙梅莲.开采难采储量技术综述[J].石油勘探开发情报,2001,(3):78-79.
[13] 唐伟.威明顿油田开采中后期一种增加储量的方法[J].复杂油气田,2000,5(2):54-55.
[14] 张雪莲.浅析俄罗斯油田高含水期采油工艺技术的现状与发展[J].中小企业管理与科技:上旬刊,2009,(3):10-11.
[15] 饶良玉,吴向红,李贤兵.苏丹层状边水油藏水平井开发效果评价与对策研究[J].岩性油气藏,2011, 23(5):106-109.
[16] 何芳,李涛.周期注水提高水驱效率技术研究[J].特种油气藏,2009,(3):261.
[17] Husband M,Ohms D,Frampton H,et al. Results of a three-well waterflood sweep improvement trial in the Prudhoe Bay field using a thermally activated particle system[R]. SPE 129967,2010.
[18] Blaskovich F. Historical problems with old field rejuvenation[R].SPE 59471,2000.
[19] 穆斯利莫夫P X,沙瓦利耶夫A M,西萨莫赴B P,等.罗马什金油田地质、开发与开采[M].巢华庆,译.北京:石油工业出版社,2003:133-213.
[20] Vasquez J,Eoff L. dalrymple D,et al. Laboratory evaluation of a relative permeability modifier for profile modification in injection wells[R]. SPE 120669, 2009.
[21] Pritchett J,Pacific C,Frampton H,et al. Field application of a new in-depth waterflood conformance improvement tool[R]. SPE 84897,2003.
[22] Sullivan D,Clarke D,Walker S, et al. Increasing waterflood reserves in the Wilmington Oil field through improved reservoir characterization and reservoir management[R]. US Doe Fossil Energy Annual Report,1997:69-74.
[23] Ohms D,McLeod J,Graff C J, et al. Incremental oil success from waterflood sweep improvemet in Alaska [J]. SPE Production & Operations,2010,25(3):247-254.
[24] Alex T,Askok K,Goldman J,et al. Toe-to-heel waterflooding. Part Ⅱ:3D laboratory-test results [J]. SPE Reservoir Evaluation & Engineering,2006,9(3):202-208.
[25] Turta A,Singhal A,Hawkins B,et al. Successful testing of toe-toheel waterflooding in Medicine Hat Glauconitic C reservoir [R].SPE 136398,2010.
[26] Lafond K B,Pedersen L M,Christiansen L B,et al. FAST optimization of liner-driver water injection[R]. SPE 130471,2010.
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