水基纳米聚硅乳液体系应用研究  被引量：7

作　　者：余庆中[1] 郑楠[2] 宋娟[1] 毛为成[1] 司玉梅[1] 赵林[1] 吴慧敏 李小红[2] 

机构地区：[1]河南油田石油工程技术研究院,河南南阳473132 [2]河南省纳米材料工程技术研究中心(河南大学),河南济源454650 [3]郑州东申石化科技有限公司,河南郑州450003

出　　处：《油田化学》2012年第2期181-185,共5页Oilfield Chemistry

基　　金：国家高技术研究发展计划("863"计划)项目"纳米减阻增注材料及其在石油开采中的应用"(项目编号2009AA032326)

摘　　要：制备了具有水分散性的疏水纳米聚硅,以水作为携带剂代替常规的有机分散剂,并将其用于低渗油田注水井的降压增注。通过分析宝浪油田储层孔喉特征,确定纳米聚硅的匹配粒径为10 20 nm。纳米聚硅乳液澄清透明,通过研究其分散性和稳定性,确定水基纳米增注液配方为1.75‰纳米聚硅、2‰助分散剂。水基纳米聚硅乳液可使岩石表面由亲水性变为强疏水性,接触角由23.7°增至131.8°。岩心流动实验结果表明,经水基纳米聚硅处理后,水相渗透率平均提高40%。对注污水或油转注的欠注井实施纳米聚硅増注前,进行酸化预处理可取得较好的增注效果。在宝浪油田5口井进行现场试验,增注有效率达80%,有效期可达一年以上。Nano-polysilicon dispersible in water was synthesized and resultant nano-polysilicon was used for decompression and augmented injection of the water-injection wells in low-permeability reservoir with water as a replacement cartier of organic dispersant. Based on the analysis of pore-throat characteristics in Baolang reservoir, it was suggested that the size of nano-polysilicon should be 10--20 nm so as to well match with the size of pore-throat. Besides, the nano-polysilicon emulsion was transparent. Through the study of dispersion capacity and stability of the emulsion, the formula of nano-polysilicon water-based decompression and augmented injection fluid was： 1.75 %0 nano-polysilicon and 2%0 assistant dispersant. After being treated with nano-polysilicon water-based emulsion, it was feasible to convert the hydrophilic core surface into a great hydrophobic with contact angle increasing from 23.7~ to 131.8~. Core flow tests showed that the water permeability increased by 40% in average after being treated with this fluid. For sewage injection well and water injection well changed from oil well, it was supposed that an excellent decompression and augmented injection effectiveness could be achieved when pre-acidizing was done before nano-liquid augmented injection. Field test in Baolang oiltleld indicated that the title augmented injection agent was able to increase the augmented injection effectiveness by a rate of 80% and could retain effectiveness in more than one year.

关 键 词：低渗储层 水基纳米聚硅 乳液 降压增注 宝浪油田 

分 类 号：TE358[石油与天然气工程—油气田开发工程] TE39