水平工作面井多级水力压裂技术

IF 0.2 Q4 GEOSCIENCES, MULTIDISCIPLINARY
D. Leontiev, N. Shamsutdinov, Yuri Vaganov, A. Shalyapina, Denis Shalyapin, Maria Zhigalkovskaya
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引用次数: 0

摘要

目前,水力压裂(HF)仍然是刺激油气流动和提高某些类型井(尤其是水平端井)采收率的最有效方法。在许多地区,这是唯一一种能够开发储量难以开采的油田的技术,这些油田仅限于低渗透、排水不良、非均质和解剖油藏,这大大增加了碳氢化合物产量,并使油井建设在经济上可行。在这项工作中,作者开发了一种在具有水平目标区的井中进行层间水力压裂的新技术,该技术能够注入压裂液,并通过瓣止回阀在压裂装置两侧保持超压。压裂是通过一个直接穿过套管的运输单元进行的,该运输单元保护塞子免受凝胶推进剂混合物的研磨作用。压裂完成后,将运输装置从塞子上取下,并关闭后切断阀。适配器从井中取出后,不可能再次进入。对于下一个层段,使用新的输送装置重复堵头、活化和压裂的工作循环。对于每次重复,新刺激的层段保持隔离,直到压裂作业完成,所有下游堵塞物都已压裂。所有安装的塞子在开发前都要钻出。在工作的所有阶段,假设在不使用连续油管的情况下准备油井。其新颖性和创新性在于将其输送到目标区域,并使用易于钻孔的塞子来保证开层分离和进行选择性压裂的技术解决方案。潜在的候选井是直径为114mm的套管,带有单作用或多作用压裂套管,以便在井的水平部分准备好后打开关闭(“等径”段的要求是直径为95mm的钻头)。作者认为,所提出的技术手段和技术将提高油田开发的效率,以低过滤参数、高粘度特性等为特征的储层条件。作者不认为该建议通常会解决储层流体流入井的加剧问题,从而提高储层的采油率,但据他们认为,在某些方面,它会对此有所贡献。最终结果将根据广泛的生产测试结果得出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-stage hydraulic fracturing technology in a well with horizontal working face
At present, hydraulic fracturing (HF) is still the most effective method of stimulating hydrocarbon flow and enhancing oil recovery in certain types of wells, particularly those with horizontal endings. In many regions, this is the only technology that enables development of fields with hard-to-recover reserves confined to low-permeability, poorly drained, heterogeneous and dissected reservoirs, which significantly increases hydrocarbon production and makes well construction economically viable. In this work, the authors have developed a new technology for interval hydraulic fracturing in a well with a horizontal target area, with the ability to inject fracturing fluid and hold excess pressure on either side of the fracturing unit by means of flap-type check valves. The fracturing is performed through a transport unit that runs directly through the casing and protects the plug from the abrasive effects of the gel-propellant mixture. After fracturing is complete, the transport unit is removed from the plug, and the rear cut-off valves are closed. No re-entry is possible after the adaptor has been removed from the well. For the next interval, the work cycle of plug, activation and fracturing is repeated using a new transport unit. For each repetition, the newly stimulated interval remains isolated until the fracturing operation is complete and all downstream plugs have been fractured. All installed plugs are drilled out before development. During all phases of the work, it is assumed that the well is prepared without the use of coiled tubing. The novelty and innovation lie in the technological solution of delivery to the target area and using easy-to-drill plugs to guarantee open interval separation and perform selective fracturing. Potential candidates are wells with 114 mm diameter casings with single- or multiple-acting fracturing sleeves to open-close after the horizontal part of the well has been prepared (the ‘equal-pass’ section requirement is for a 95 mm diameter bit). The proposed technical means and technology, in the opinion of the authors, will increase the efficiency of field development, reservoir conditions in which are characterized by low filtration parameters, high viscosity properties, etc. The authors do not think that the proposal will generally solve the problem of intensification of the inflow of reservoir fluid to the well and thereby increase oil recovery from the reservoir, but according to in their opinion, in some respects it will contribute to this. The final results will be obtained based on the results of extensive production tests.
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来源期刊
Boletin de Ciencias de la Tierra
Boletin de Ciencias de la Tierra GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
0.30
自引率
0.00%
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0
审稿时长
24 weeks
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