Increasing the Productivity of Horizontal Wells Through Multistage Hydraulic Fracturing Using a Working Fluid Based on a New Biopolymer System

Nikolay Mikhaylovich Migunov, A. Alekseev, D. Bukharov, V. Kuznetsov, Aleksandr Yuryevich Milkov, A. Prodan, T. Shevchuk, Georgy Aleksandrovich Shipilin
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Abstract

According to the US Energy Agency (EIA), Russia is the world leader in terms of the volume of technically recoverable "tight oil" resources (U.S. Department of Energy, 2013). To convert them into commercial production, it is necessary to create cost-effective development technologies. For this purpose, a strategy has been adopted, which is implemented at the state level and one of the key elements of which is the development of the high-tech service market. In 2017, the Minister of Energy of the Russian Federation, in accordance with a government executive order (Government Executive Order of the Russian Federation, 2014), awarded the Gazprom Neft project on the creation of a complex of domestic technologies and high-tech equipment for developing the Bazhenov formation with the national status. It is implemented in several directions and covers a wide range of technologies required for the horizontal wells drilling and stimulating flows from them using multi-stage hydraulic fracturing (MS HF) methods. Within the framework of the technological experiment implemented at the Palyanovskaya area at the Krasnoleninskoye field by the Industrial Integration Center "Gazpromneft - Technological Partnerships" (a subsidiary of Gazprom Neft), from 2015 to 2020, 29 high-tech wells with different lengths of horizontal wellbore were constructed, and multistage hydraulic fracturing operations were performed with various designs. Upon results of 2020, it became possible to increase annual oil production from the Bazhenov formation by 78 % in comparison with up to 100,000 tons in 2019. The advancing of development technologies allowed the enterprise to decrease for more than twice the cost of the Bazhenov oil production from 30 thousand rubles per ton (69$/bbl) at the start of the project in 2015 to 13 thousand rubles (24$/bbl) in 2020. A significant contribution to the increase in production in 2020 was made by horizontal wells, where MS HF operations were carried out using an experimental process fluid, which is based on the modified Si Bioxan biopolymer. This article is devoted to the background of this experiment and the analysis of its results.
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基于新型生物聚合物体系的工作液多级水力压裂提高水平井产能
根据美国能源署(EIA)的数据,俄罗斯在技术上可开采的“致密油”资源量方面处于世界领先地位(美国能源部,2013年)。为了将它们转化为商业生产,必须创造具有成本效益的发展技术。为此目的,已经采取了一项战略,该战略在国家一级实施,其中一个关键要素是发展高科技服务市场。2017年,俄罗斯联邦能源部长根据一项政府行政命令(2014年俄罗斯联邦政府行政命令),授予俄罗斯天然气工业股份公司(Gazprom Neft)一个项目,该项目旨在建立一个国内技术和高科技设备综合体,以开发具有国家地位的巴杰诺夫地层。它适用于多个方向,涵盖了水平井钻井和多级水力压裂(MS HF)方法增产所需的广泛技术。在2015年至2020年期间,在Krasnoleninskoye油田Palyanovskaya地区由工业整合中心“Gazpromneft -技术合作伙伴关系”(Gazprom Neft的子公司)实施的技术实验框架内,建造了29口不同水平井筒长度的高科技井,并以各种设计进行了多级水力压裂作业。根据2020年的结果,与2019年高达10万吨的石油产量相比,Bazhenov地层的石油年产量有可能增加78%。开发技术的进步使该企业将Bazhenov石油生产成本从2015年项目开始时的每吨3万卢布(69美元/桶)降低到2020年的1.3万卢布(24美元/桶),降低了两倍以上。水平井对2020年的产量增长做出了重大贡献,其中使用了一种基于改性Si Bioxan生物聚合物的实验工艺流体进行了MS HF作业。本文主要介绍了实验的背景和实验结果的分析。
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