Development of methodological and constructive foundations for drilling wells using new types of bits

A. Ihnatov, B. Ratov, Ya. Tkachenko, S. Shypunov, S. Vetoshka
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引用次数: 1

Abstract

Purpose. Improving the technical and economic indicators and the degree of perfection of the process of constructive selection, justification and engineering calculation of effective schemes for the implementation of individual units of drill bits, ensuring the constancy of the process of deepening the bottom hole with high productivity and resource saving. Research methodology. Applied computational and laboratory studies of the design features of the design choice of drilling bits of new designs were carried out using modern methods of analytical analysis and experimental research, in particular, by using the general principles of mathematical and physical modeling, methods for processing research results in the EXCEL, MATHCAD environment, control and measurement systems and materials. The flow of borehole processes was modeled on experimental wells of the training drilling site of the Dnipro University of Technology using the UKB-4P drilling rig and the corresponding auxiliary tools and equipment. Research results. A critical review of research and development in the field of designing drill bits was carried out; special attention is paid to the schemes for the implementation and operation of weapons systems and analysis of the properties of materials used to manufacture individual parts of drill bit assemblies; highlights the main advantages and disadvantages of existing schemes for the execution of bits; factors of working capacity and durability of elements of bits are defined; the causes of bit wear are established and the provisions of the problem of improving the technique and technology for making drill bit assemblies are formulated. Originality. A constructive approach to the drilling bit execution system using advanced technology and the creation of a workable destructive assembly of the specified tool for well construction can be based on the principle of chain execution of the destructive body. Practical implications. Fundamentally new design schemes for the implementation of the working destructive unit of the drill bit have been created, the use of which will lead to a significant increase in the productivity of exploration and production work, a reduction in the time for auxiliary operations, and an overall increase in the efficiency and economy of the well construction process.
开发使用新型钻头钻井的方法学和构造基础
目的。提高技术经济指标和过程的完善程度,建设性地选择、论证和工程计算有效的方案,实施单件钻头,确保高生产率和节约资源的井底深取过程的持续性。研究方法。采用现代分析分析和实验研究的方法,特别是利用数学和物理建模的一般原理、在EXCEL中处理研究结果的方法、MATHCAD环境、控制和测量系统以及材料,对新设计钻头的设计选择的设计特点进行了应用计算和实验室研究。利用UKB-4P钻机及相应的辅助工具和设备,对第聂伯罗理工大学实训钻井现场的实验井进行了钻孔过程流程建模。研究的结果。对钻头设计领域的研究和发展进行了批判性的回顾;特别注意武器系统的实施和操作方案以及用于制造钻头组件各个部件的材料的特性分析;强调现有的比特执行方案的主要优点和缺点;定义了钻头元件的工作能力和耐久性因素;确定了钻头磨损的原因,并提出了改进钻头组合制造工艺的问题。创意。基于破坏体的链式执行原理,可以采用先进技术和创建用于建井的指定工具的可行破坏性组件来构建钻头执行系统。实际意义。从根本上说,已经创建了新的设计方案,用于实施钻头的工作破坏单元,它的使用将大大提高勘探和生产工作的生产率,减少辅助作业的时间,并总体上提高了建井过程的效率和经济性。
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