致密油高效渗吸压裂技术

Chunpeng Wang, Weixiang Cui, He-wen Zhang, Xiaohui Qiu, Yuting Liu
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引用次数: 9

摘要

针对无天然产能的致密油储层(上覆压力不大于0.2mD(孔隙渗透率小于2mD)的基质渗透率的致密砂岩和碳酸盐岩储层),采用纳米滴剂、高效洗油表面活性剂和润湿性反转手段相结合的方法,研制了一种纳米高效洗油剂。利用自吸作用,可以化孔喉小的劣势为优势,实现压裂效果的提高。对于致密油储层,建议采用大规模、高抽速水平井多级压裂和裂缝导流技术来破碎储层,形成天然裂缝和人工裂缝组成的油气流动裂缝网络。目的是增加储层增产量和人工裂缝面积。同时,在压裂液中加入纳米高效洗油剂。通过改变岩石的润湿性,使油湿界面变为水湿界面,毛细力由吸胀阻力变为吸胀驱动,促进了自发吸胀。因此,生物基溶剂和表面活性剂可以协同作用,将油膜从孔和喉表面分离出来,实现水驱油。实验数据表明,纳米驱油剂的应用可使岩心驱油效率提高12%。压裂后,井应关井一段时间。关井时间应综合考虑储层压力和温度、孔隙结构和连通性、压裂液的自吸能力等因素,可通过自吸实验和核磁共振等计算得出,指导现场作业。该技术在中国西部致密油油藏已应用10井次,其中重点探井增产3井次,老井重复压裂7井次,均取得了较好的效果。其中,有一口井值得特别注意,该井在压裂前没有生产,但压裂后却获得了42吨/天的高产。在关井过程中,人工裂缝网络中的压裂液与基质中的微孔充分接触,并通过对裂缝系统的渗吸取代微孔中的油,然后油沿裂缝网络流至井底。致密油高效渗吸压裂技术是压裂技术的一次革命。与传统压裂不同的是,该技术具有压裂液体系和关井特性,可以提高压裂效果,更重要的是提高采收率。本文对从事致密油开发的工程技术人员具有重要的指导和参考意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Efficient Imbibition Fracturing for Tight Oil Reservoir
In view of tight oil reservoirs with no natural productivity (tight sandstone and carbonate reservoirs with matrix permeability under overburden pressure of no more than 0.2mD (pore permeability less than 2mD)), a nanometer high efficient oil washing agent has been developed by combining nano-drop, high efficient oil washing surfactant and wettability reversal means, which can turn the disadvantage of the small pores and throats into advantage and realize fracturing effect enhancement by making use of the spontaneous imbibition. For the tight oil reservoir, large scale and high pumping rate multi-stage fracturing in horizontal wells and fracture diversion technique are recommended to smash the reservoirto create a fracture network of natural fractures and artificial fractures for oil and gas flow. The aim is to increase reservoir stimulation volume and the artificial fracture area. Meanwhile, nanometer high efficient oil washing agent is added in the fracturing fluid. By changing rock wettability, the oil-wet interface is turned water-wet, and the capillary force is changed from imbibition resistance to imbibition drive, boosting spontaneous imbibition. Therefore, the biobased solvent and surfactant can work in synergy to separate the oil film from pore and throat surface, realizing displacement of oil by water. Experimental data shows the application the nanometer oil displacement agent can enhance the oil displacement efficiency of core by12%. After fracturing, the well should be shut down for some time. The shut-down time should take the reservoir pressure and temperature, pore structure and connectivity and the imbibition capacity of the fracturing fluid etc into account, and can be worked out by spontaneous imbibition experiment and NMR etc to guide field operation. This technology has been used 10 well times in tight oil reservoirs in western China, including 3 well times of key exploration well stimulation, and 7 well times of old well repeated fracturing, all the treatments have achieved good effect. Among them, one well worth special note, this well had no production before fracturing, but obtained a high production of 42t a day after fracturing. During the shutdown of well, the fracturing fluid in the artificial fracture network can contact fully with micro-pores in the matrix and displace the oil in them through imbibition to the fracture system, then the oil can flow along the fracture network to the well bottom. The high efficient imbibition fracturing technology for tight oil reservoir is a revolution in fracturing. With fracturing fluid system and well shutdown different from traditional fracturing, this technology can enhance fracturing effect and more importantly oil recovery. This paper has great guidance and reference significance for engineers and researchers engaged in tight oil development.
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