纳米复合泡沫凝胶修井液的研制与试验  被引量：3

作　　者：罗有刚[1,2] 巨亚锋[1,2] 王尚卫[1,2] 杨义兴 江智强[1,2] 王嘉鑫[1,2] LUO Yougang;JU Yafeng;WANG Shangwei;YANG Yixing;JIANG Zhiqiang;WANG Jiaxin(Oil&Gas Technology Institue of Changqing Oilfield Company,Xi’an,Shaanxi 710021;National Engineering Laboratory For Exploration And Development Of Low Permeability Oil and Gas Field,Xi’an,Shaanxi 710021;Changqing Oilfield Company Oil Production Plant NO.10,Qingcheng,Gansu 745100)

机构地区：[1]长庆油田分公司油气工艺研究院,西安710021 [2]低渗透油气田勘探开发国家工程实验室,西安710021 [3]长庆油田分公司第十采油厂,甘肃庆城745100

出　　处：《钻井液与完井液》2020年第1期127-132,共6页Drilling Fluid & Completion Fluid

基　　金：国家科技重大专项大型油气田及煤层气开发“低渗-超低渗油藏提高储量动用关键工艺技术”(2017ZX05013);中国石油天然气股份有限公司重大攻关专项“长庆油田致密油气多层多段压裂技术攻关与现场试验”(2019CGCGZ004)联合资助。

摘　　要：随着油田水平井开发时间的延长,受储层物性及注采驱替系统难以建立等因素的影响,水平井部分开发区域地层压力保持水平较低,地层能量不足,修井作业过程中修井液漏失严重,作业循环建立困难,导致施工作业周期长、效率低等问题。依据泡沫流体特点,研发了一种强稳定性的纳米复合泡沫凝胶修井液,与常规活性水修井液相比,其稳定性高、密度低、降漏失性强,其主要配比为:1.4%起泡剂+0.25%纳米二氧化硅+0.5%聚合物+0.05%交联剂+0.02%稳定剂。该修井液体系主要以微泡作为分散相,凝胶为骨架,依靠泡沫的强承托能力和泡沫、凝胶的双层封堵特点,达到暂堵漏失地层、降低修井液漏失的目的。室内模拟实验表明,对于模拟岩心,初期体系滤失量几乎为零,稳定后漏失速率小于10 mL/min,显示出其良好的承压能力与降漏失特性。现场实验表明,该修井液性能稳定,能有效暂堵漏失层段、降漏失效果较好。研究表明,纳米复合泡沫凝胶修井液具有良好的暂堵降漏失效果,在低压水平井修井作业具有很好的应用前景。Long time development of horizontal wells have their formation pressure and formation energy are gradually depleted because of the physical properties of the reservoirs and the difficulties setting up the injection-production displacement system. Depletion of reservoir pressure often results in severe mud losses during workover operations and reestablishment of circulation is generally quite difficult. These in turn result in long operation time and low operation efficiency. Based on the properties of foam fluid, a highly stable nanometer compound gel foam workover fluid has been developed to deal with this problem. Compared with conventional workover fluids formulated with active water, this foam workover fluid has higher stability, lower density and better capacity in preventing mud losses. The composition of the foam is as follows: 1.4% foaming agent + 0.25% nanometer SiO2 + 0.5% polymer + 0.05% crosslinking agent + 0.02% stabilizer. This workover fluid uses micro foams as dispersed phase and gel as foam stabilizer, the loss of this workover fluid can be minimized by its strong retaining capacity and the combined ability of mud loss control of foam and gel which can help temporarily bridge the channels in the formations through which the workover fluid is lost. In laboratory simulation test, the initial fluid loss of the foam workover fluid through artificial cores was almost zero and the stable rate of loss was less than 10 mL/min, showing itself good pressure-bearing capacity and excellent performance of minimizing mud loss rate. Field test of the workover fluid showed that it had stable properties and was able to temporarily plug the loss zones. This study shows that the nanometer compound gel workover fluid has excellent temporary plugging capacity and ability of minimizing mud losses, it will find wide application in low-pressure horizontal well workover operations.

关 键 词：修井液 承压能力 泡沫凝胶 水平井 纳米 暂堵 

分 类 号：TE358.4[石油与天然气工程—油气田开发工程]