On the issue concerning improvement of a mud preparation technology at the expense of hydrodynamic cavitation

O. Kamyshatskyi, Y. Koroviaka, V. Rastsvietaiev, V. Yavorska, O. Dmytruk, T. Kaliuzhna
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Abstract

Purpose is to improve the technology of drilling mud by applying hydrodynamic cavitation. Research methodology is represented by the theoretical and experimental studies of hydrodynamic cavitation, performed with the help of modern methods of analytical analysis and experimental studies, i.e. by using general principles of mathematical and physical modeling, methods of processing research results in EXCEL, SolidWorks for further analysis. Research results. Frequency of cavitation oscillations according to the parameters of a device for creating hydrodynamic cavitation has been calculated. The formula for determining the dispersion time of the washing liquid material by the frequency of cavitation oscillations has been theoretically substantiated and obtained. A process of moving drilling fluid in the device using the appropriate software in the SolidWorks package has been studied. The results of theoretical research have been confirmed by practical research and chosen as a basis for substantiation and development of the methods for preparing drilling fluids. Originality is represented by modeling and research of the process of hydrodynamic cavitation in a cavitation device using flow visualization using SolidWorks software. This approach helped substantiate and predict the pressure and flow velocity at each point of transition of the diameters of a cavitation dispersant. This, in turn, has made it possible to reduce hydraulic resistance and improve the device design to implement a technology of preparation of drilling fluids due to hydrodynamic cavitation. This approach has allowed substantiating and performing virtual experiments on the technology of preparation of drilling fluids; that has helped select rational design parameters of the cavitation disperser and save a lot of money and time on the production of bench samples of the device, including various design features. Practical implications. Basing on the results of both theoretical and experimental studies, the development of advanced technology for the preparation of stable drilling fluids be applying rational indicators of hydrodynamic cavitation has been substantiated and proposed.
以水动力空化为代价改进泥浆制备工艺的问题
目的是利用水动力空化技术改进钻井液工艺。研究方法以水动力空化的理论研究和实验研究为代表,借助现代分析分析和实验研究的方法,即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,SolidWorks进行进一步分析。研究的结果。根据水动力空化装置的参数,计算了空化振荡频率。从理论上证实并得到了用空化振荡频率确定洗涤液物料分散时间的公式。研究了使用SolidWorks软件包中的相应软件在设备中移动钻井液的过程。理论研究结果得到了实践研究的证实,并为钻井液制备方法的完善和发展奠定了基础。独创性体现在利用SolidWorks流动可视化软件对空化装置内流体动力空化过程进行建模和研究。这种方法有助于证实和预测空化分散剂直径每个过渡点的压力和流速。反过来,这使得减少水力阻力和改进设备设计成为可能,从而实现了由于流体动力空化而制备钻井液的技术。这种方法可以对钻井液制备技术进行验证和虚拟实验;这有助于选择合理的空化分散器的设计参数,并节省大量的资金和时间,在装置的台架样品的生产,包括各种设计特点。实际意义。在理论和实验研究的基础上,提出了应用合理的水动力空化指标制备稳定钻井液的先进技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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