井中承压镁球与双金属球应力-应变状态评价

IF 0.3 Q4 ENGINEERING, CHEMICAL

Chemical and Petroleum Engineering Pub Date : 2023-05-30 DOI:10.17122/ngdelo-2023-2-151-158

Y. Loginov, Yu. V. Zamaraeva

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引用次数: 0

摘要

在石油工业中，由镁合金制成的可溶性球可作为桥塞，用于各种井段的临时密封。需要注意的是，镁是一种低密度的金属，因此重力可能不足以将球体紧紧地压在阀座上。因此，旨在为球称重的方法的发展是相关的。例如，这可以通过制造双金属球来实现，其外壳由可降解材料制成，例如镁或其合金，外壳内放置不可降解材料，例如钢。本研究的目的是比较某油井作业过程中镁球与双金属球(壳为镁制，壳内为钢球)的应力-应变状态。考虑了液体在压力作用下对气球的操作和测试方案。仿真在DEFORM 2D软件模块中进行。球的尺寸根据实际应用情况选择，另外，在双金属球的情况下，位于镁壳内部的钢球直径设置小于阀座内径。这保证了在镁壳溶解后球通过阀座孔的通道。计算了镁球和双金属球的变形程度和变形速率、平均法向应力和应力状态指数。从开裂的位置可以看出球的危险区域——与鞍座接触的区域，在那里变形是局部的。此外，研究发现，在加载双金属球的情况下，所有变形都集中在镁壳中，而钢球根本不变形，在这种情况下充当芯轴。双金属球的平均电压模的最大值比镁球高16%，而双金属球的平均电压模的最大值比镁球高16%。镁球的中心受到拉伸应力，这在双金属球中是没有观察到的。根据球危险区应力状态指标的计算结果，双金属球的σ/T水平比镁球的σ/T水平平均高20%。因此，与镁球相比，双金属球在压力下加载液体的过程中具有更有利的应力-应变状态。

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EVALUATION OF THE STRESS-STRAIN STATE OF MAGNESIUM AND BIMETALLIC BALLS LOADED WITH PRESSURE IN A DRILLING WELL

In the oil industry, soluble balls made of magnesium alloys serve as plugs for temporary sealing of various sections wells. It is noted that magnesium is a metal with a low density, and therefore the gravitational force may not be enough to tightly press the ball against the valve seat. Therefore, the development of methods aimed at weighing the balls is relevant. This is achieved, for example, by manufacturing bimetallic balls, the shell of which is made of a degradable material, for example, magnesium or its alloys, a non-degradable material, for example, steel, is placed inside the shell. The purpose of the work is to compare the stress-strain state of magnesium and bimetallic (the shell is made of magnesium, inside the shell is a steel ball) balls during operation in an oil well. The scheme of operation and testing balloons under the influence of liquid under pressure is considered. The simulation was carried out in the DEFORM 2D software module. The size of the balls is selected from the actual application condition, in addition, in the case of a bimetallic ball, the diameter of the steel ball located inside the magnesium shell is set less than the inner diameter of the seat. This guarantees the passage of the ball through the seat hole after the dissolution of the magnesium shell. Calculations of the degree and rate of deformation, the average normal stress and the stress state index of magnesium and bimetallic balls are performed. The dangerous zone of the balls from the position of cracking is revealed — the zone of contact with the saddle, where the deformation is localized. In addition, it was found that in the case of loading a bimetallic ball, all deformation is concentrated in the magnesium shell, and the steel ball does not deform at all and in this case acts as a mandrel. The stress state turns out to be more favorable at the periphery of the balls, however, the maximum of the average voltage modulo a bimetallic ball is 16 % higher than this value of a magnesium ball. The center of the magnesium ball is subject to tensile stresses, which is not observed in a bimetallic ball. According to the results of the calculation of the stress state indicator in the dangerous zone of the balls, the level of σ/T of a bimetallic ball is on average 20 % higher than this indicator of a magnesium ball. Thus, a bimetallic ball in the process of loading with a liquid under pressure has a more favorable stress-strain state compared to a magnesium ball.

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来源期刊

Chemical and Petroleum Engineering ENGINEERING, CHEMICAL-

CiteScore

0.60

自引率

33.30%

发文量

129

期刊介绍： Chemical and Petroleum Engineering publishes the latest research on Russian innovations in the field. Articles discuss developments in machinery and equipment, construction and design, processes, materials and corrosion control, and equipment-manufacturing technology. Chemical and Petroleum Engineering is a translation of the Russian journal Khimicheskoe i Neftegazovoe Mashinostroenie. The Russian Volume Year is published in English from April. All articles are peer-reviewed.