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Theoretical and Experimental Investigation of Flexural Vibration Transfer Properties of High-Pressure Periodic Pipe 被引量:4
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作者 魏振东 李宝仁 +1 位作者 杜经民 杨钢 《Chinese Physics Letters》 SCIE CAS CSCD 2016年第4期68-71,共4页
According to the theory of phononic crystals, the hydraulic pipeline is designed to be a periodic structure composed of steel pipes and hoses to suppress the vibration of the hydraulic system with band gaps. We presen... According to the theory of phononic crystals, the hydraulic pipeline is designed to be a periodic structure composed of steel pipes and hoses to suppress the vibration of the hydraulic system with band gaps. We present theoretical and experimental investigations into the flexural vibration transfer properties of a high-pressure periodic pipe with the force on the inner pipe wall by oii pressure taken into consideration. The results show that the vibration attenuation of periodic pipe decreases along with the elevation of working pressure for the hydraulic system, and the band gaps in low frequency ranges move towards high frequency ranges. The periodic pipe has good vibration attenuation performance in the frequency range below 1000 Hz and the vibration of the hydraulic system is effectively suppressed. A11 the results are validated by experiment. The experimental results show a good agreement with the numerical calculations, thus the flexural vibration transfer properties of the high- pressure periodic pipe can be precisely calculated by taking the fluid structure interaction between the pipe and oil into consideration. This study provides an effective way for the vibration control of the hydraulic system. 展开更多
关键词 of on in Theoretical and Experimental Investigation of Flexural Vibration Transfer Properties of high-pressure Periodic pipe IS
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Research on Horizontal Vibration of Heavy-Weight Drill Pipes in Directional Drilling 被引量:3
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作者 Jiang Wei Wang Lan Engineer, Drilling Department of Bohai Oil Corp of CNOOC, Tanggu, 300452, Tianjin Engineer, Well Testing Company of Bohai Oil Corp of CNOOC, Tanggu, 300452, Tianjin 《China Ocean Engineering》 SCIE EI 1992年第4期403-414,共12页
The mode of load and deformation of directional drilling string and the expression of trigonometric series of deflection equation are established by means of elastic deformation energy and of the vertical and horizont... The mode of load and deformation of directional drilling string and the expression of trigonometric series of deflection equation are established by means of elastic deformation energy and of the vertical and horizontal bending. A calculation formula for natural frequency of horizontal resonance and rotational speed is derived based on the calculation method by Ritz, with which analysis is made for the cause and affecting factors of the excessive abrasion of heavy-weight drill pipe in high-angle holes so as to provide reference and basis for rational selection of drilling parameters and drilling tools in the future high-angle directional drilling. 展开更多
关键词 directional drilling heavy-weight drill pile drill pipe wornout horizontal vibration natural-frequency
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Composite rock-breaking of high-pressure CO_(2)jet&polycrystallinediamond-compact(PDC)cutter using a coupled SPH/FEM model 被引量:3
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作者 Can Cai Pei Zhang +2 位作者 Daping Xu Xianpeng Yang Yingfang Zhou 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2022年第5期1115-1124,共10页
CO_(2) drilling is a promising underbalance drilling technology with great advantages,such as lower cutting force,intense cooling and excellent lubrication.However,in the underbalance drilling,the mechanism of the cou... CO_(2) drilling is a promising underbalance drilling technology with great advantages,such as lower cutting force,intense cooling and excellent lubrication.However,in the underbalance drilling,the mechanism of the coupling CO_(2) jet and polycrystalline-diamond-compact(PDC)cutter are still unclear.Whereby,we established a coupled smoothed particle hydrodynamics/finite element method(SPH/FEM)model to simulate the composite rock-breaking of high-pressure CO_(2) jet&PDC cutter.Combined with the experimental research results,the mechanism of composite rock-breaking is studied from the perspectives of rock stress field,cutting force and jet field.The results show that the composite rock-breaking can effectively relieve the influence of vibration and shock on PDC cutter.Meanwhile,the high-pressure CO_(2) jet has a positive effect on carrying rock debris,which can effectively reduce the temperature rising and the thermal wear of the PDC cutter.In addition,the effects of CO_(2) jet parameters on composite rock-breaking were studied,such as jet impact velocity,nozzle diameter,jet injection angle and impact distance.The studies show that when the impact velocity of the CO_(2) jet is greater than 250 m/s,the CO_(2) jet could quickly break the rock.It is found that the optimal range of nozzle diameter is 1.5–2.5 mm,the best injection angle of CO_(2) jet is 60,the optimal impact distance is 10 times the nozzle diameter.The above studies could provide theoretical supports and technical guidance for composite rock-breaking,which is useful for the CO_(2) underbalance drilling and drill bit design. 展开更多
关键词 C0_(2)drilling high-pressure C0_(2)jet&PDC cutter Composite rock-breaking Experimental study SPH/FEM method
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Numerical calculation of temperature and phase change during the process of atomizing spray quenching on drilling pipe 被引量:1
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作者 QitangLi GuozengYang JianguoZhang 《Journal of University of Science and Technology Beijing》 CSCD 2003年第2期60-64,共5页
A finite element method (FEM) procedure was developed in order to simulatethe quenching process for drilling pipe (DP). The calculating model was based ontime-temperature-transformation (TTT) diagrams, and incorporate... A finite element method (FEM) procedure was developed in order to simulatethe quenching process for drilling pipe (DP). The calculating model was based ontime-temperature-transformation (TTT) diagrams, and incorporated with material properties dependenton temperature. The procedure was used to calculate the temperature-time histories, describe thephase transformations of atomizing spray quenching for DP in the welding zone, and predict thehardness distribution in radius direction after quenching in the zone. The calculated results metwell with that of experiments. It was easy to determine the parameters such as volume and pressureof the cooling water and compressed gas by use of the numerical calculation and experiments, becausethe value of convection coefficient was decided greatly by the mixture of the cooling water andcompressed gas. Moreover, the simulating results were helpful not only to design the quenchingequipment, but also to optimize the quenching process for DP's welding zone. 展开更多
关键词 FEM atomizing spray quenching drilling pipe heat-treatment
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Processing practice of Baosteel drill pipes
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作者 ZHAO Peng Baoshan Iron &Steel Co.,Ltd.,Shanghai 201900,China 《Baosteel Technical Research》 CAS 2010年第S1期68-,共1页
Drill pipe products are the most critical service requirement,the highest performance requirement and the highest quality reliability OCTG products.Through the continuous research on steelmaking,upset, heart treatment... Drill pipe products are the most critical service requirement,the highest performance requirement and the highest quality reliability OCTG products.Through the continuous research on steelmaking,upset, heart treatment,straightening and friction welding,Baosteel improves the key technical parameters which affect the quality of drill pipe,such as material purity,Miu of internal upset transition area,toughness and straightness.Baosteel drill pipe products have met the demanding requirement of drilling operations.By BRP dephosphorization and LF desulfurization,the P,S content of Baosteel drill pipe is very low.The S content of S-135 drill pipe can be controlled in less than 10ppm.Baosteel designs a new closed-loop control system of upset end induction heating system.The system use temperature measurement inside the oven and closed-loop control.The temperature accuracy of the system can be guaranteed within the±15℃to get a stable upset quality.The upsetting process of the drill pipe is optimized by using patented technology and made the Miu from 100 mm to 140 mm.This make a substantial increase in fatigue life of the drill pipe.To improve the impact toughness of the drill pipe body,the drill pipe body material is changed from Cr-Ni-Mo system to Cr-Mo-V system and the heat treatment is changed from oil quenching to water quenching.To improve the impact toughness of the tool joint,the tool joint furnace is upgraded to improve heating capacity.To improve the impact toughness of the weld zone,a new fuzzy control system of weld zone heat treatment is developed.The temperature accuracy of the system can be guaranteed within the±5℃to get a stable heat treatment quality.A new drill pipe straightness automatic detection devices and self-learning method of straightening are developed to achieve automated straightening.A welding process with high speed,single-stage pressure and high forging force is applied to inertia friction welding.A welding process with low speed,three-stage pressure and low forging force is applied to continous friction welding. 展开更多
关键词 drill pipe STEELMAKING upset heat treatment STRAIGHTENING friction welding
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Corrosion characteristics and mechanism of the S135 drill pipes in slurry
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作者 ZHOU Qingjun GUO Jinbao QI Huibin QIAN Yuhai WANG Wei 《Baosteel Technical Research》 CAS 2009年第2期13-15,共3页
The corrosion mechanism of the S135 drill pipes was investigated through observation of the corrosion morphology and analysis of the corrosion products by scanning electronic microscope ( SEM), energy dispersive spe... The corrosion mechanism of the S135 drill pipes was investigated through observation of the corrosion morphology and analysis of the corrosion products by scanning electronic microscope ( SEM), energy dispersive spectrum (EDS) and X-ray diffraction (XRD). The results show that the localized corrosion on the outer surface of the drill pipes was caused by oxygen corrosion due to the action of retained slurry. Cl - contained in slurry accelerated the corrosion and promoted the development of corrosion pits. Suggestions for mitigating or preventing such corrosion of the drill pipes are proposed based on the research results. 展开更多
关键词 S135 drill pipe SLURRY oxygen corrosion Cl- ions
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Calculation of the Gas Injection Rate and Pipe String Erosion in Nitrogen Drilling Systems
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作者 Mingren Shao Chunpeng Wang +3 位作者 Degui Wang Wenbo Mei Mingjie Li Hao Yang 《Fluid Dynamics & Materials Processing》 EI 2022年第2期417-430,共14页
Detailed information is provided for the design and construction of nitrogen drilling in a coal seam.Two prototype wells are considered.The Guo model is used to calculate the required minimum gas injection rate,while ... Detailed information is provided for the design and construction of nitrogen drilling in a coal seam.Two prototype wells are considered.The Guo model is used to calculate the required minimum gas injection rate,while the Finnie,Sommerfeld,and Tulsa models are exploited to estimate the ensuing erosion occurring in pipe strings.The calculated minimum gas injection rates are 67.4 m^(3)/min(with water)and 49.4 m^(3)/min(without water),and the actual field of use is 90–120 m^(3)/min.The difference between the calculated injection pressure and the field value is 6.5%–15.2%(formation with water)and 0.65%–7.32%(formation without water).The results show that the Guo model can more precisely represent the situation of the no water formation in the nitrogen drilling of a coal seam.The Finnie,Sommerfeld,and Tulsa models have different sensitivities to cutting densities,particle size,impact velocity and angle,and pipe string hardness. 展开更多
关键词 Coalbed methane nitrogen drilling minimum gas injection rate erosion of pipe string analysis on the scene
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Stress Corrosion Cracking of High-strength Drill Pipe in Sour Gas Well
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作者 张智 LI Jing +4 位作者 ZENG Dezhi HU Junying HOU Duo ZHANG Liehui SHI Taihe 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2014年第4期813-816,共4页
In high sour gas reservoir drilling process, it happens occasionally that high-strength drill pipe suffers brittle fracture failure due to stress corrosion cracking, and poses serious hazard to drilling safety. To sol... In high sour gas reservoir drilling process, it happens occasionally that high-strength drill pipe suffers brittle fracture failure due to stress corrosion cracking, and poses serious hazard to drilling safety. To solve this problem, this paper studied the stress corrosion cracking mechanism and infl uencing factors of highstrength drill pipe in sour environment with hydrogen permeation experiments and tensile tests. We simulated practical conditions in laboratory and evaluated the stress corrosion cracking performance of the high-strength drill pipe under conditions of high stress level. For the problems occurring in use of high-strength drill pipe on site, the paper proposed a technical measure for slower stress corrosion cracking. 展开更多
关键词 sour environment high-strength drill pipe stress corrosion cracking
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Analysis of Drill Pipe's Effect on Casing
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作者 Wang Changjin Li Lei Li Yinpeng Ha Mingda 《International English Education Research》 2015年第1期81-83,共3页
Frictional wear of inner walls of drill pipe and casing is produced by rotational advance of drill pipe in the casing due to the joint effect of drilling fluid, temperature and contact load during drilling, among whic... Frictional wear of inner walls of drill pipe and casing is produced by rotational advance of drill pipe in the casing due to the joint effect of drilling fluid, temperature and contact load during drilling, among which the main wear is on the drill string. With development of drilling technology, deep well, ultradeep well, high angle well, directional well, extended reach well and horizontal well are taking more and more proportion. Meanwhile, the problem of serious frictional wear between drill pipe and casing are becoming more significant due to long time of drilling, high probability of dogleg severity, high contact normal stress between drill pipe and casing etc. Tool sticking may also occur due to large frictional resistance. Therefore, higher requirements are made on the study of how to predict and prevent the wear of drill pipe and casing during drilling. The residual strength of the worn casing is also studied by analysis of the law of drill pipe's effect on the casing wear in this paper. 展开更多
关键词 drill pipe CASING WEAR residual strength
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S135钻杆接头螺纹三维参数化建模及力学特性分析 被引量:1
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作者 赵宽 崔强 +1 位作者 李金平 彭腊梅 《西安科技大学学报》 CAS 北大核心 2024年第2期391-399,共9页
S135钢级钻杆在矿井勘探、探放水、瓦斯抽采等钻孔施工中得到了广泛使用。然而,由于钻杆接头螺纹承受轴向拉压、扭转、弯曲及其复合载荷的循环作用,导致接头螺纹的使用寿命远远低于其设计寿命,是整个钻杆结构中最薄弱的环节。因此,通过... S135钢级钻杆在矿井勘探、探放水、瓦斯抽采等钻孔施工中得到了广泛使用。然而,由于钻杆接头螺纹承受轴向拉压、扭转、弯曲及其复合载荷的循环作用,导致接头螺纹的使用寿命远远低于其设计寿命,是整个钻杆结构中最薄弱的环节。因此,通过万能拉伸试验获得钻杆接头材料的力学性能参数,经计算转化得到其本构参数,对钻杆接头进行有限元分析。为了提高有限元分析效率,推导垂直于钻杆接头轴线的螺纹截面轮廓几何表达式,基于旋转、抬升、缩径和连接节点的设计思路,提出了一种考虑钻杆接头锥度和台肩的三维螺纹参数化建模方法,并根据单元和节点之间的关系开发了钻杆接头连接的参数化三维六面体网格建模程序,通过与交互式建模方法计算结果的对比验证了其有效性和可行性。此外,对上扣扭矩、压扭及压弯扭复合载荷作用下接头外螺纹的力学特性进行了分析。结果表明:3种工况下钻杆接头外螺纹上的应力近似呈现“浴盆”形态,第1螺纹牙上的应力最大;随着圈次的增加,螺纹牙上的应力迅速下降,最后一圈螺纹牙上的应力呈现上升趋势;在弯矩的作用下,螺纹牙上的应力具有非对称特征。在接头螺纹设计时,必须考虑井眼曲率的影响并且需要重点关注接头压缩边第1螺纹牙上的应力。 展开更多
关键词 钻杆 接头螺纹 参数化建模 力学特性 井眼曲率
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钛合金/钢钻杆复合钻柱动力学特性分析与优化设计
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作者 陈锋 宾国成 +6 位作者 刘志虎 张建军 郭文婷 吴永清 王文昌 刘强 狄勤丰 《中国石油大学学报(自然科学版)》 EI CAS CSCD 北大核心 2024年第3期75-83,共9页
钻井深度的持续增加使钻柱面临的载荷工况越来越严苛。钛合金具有密度小、屈服强度高和弹性模量低等特点,基于井口钻杆抗拉余量设计要求,设计3种钛合金/钢钻杆复合钻柱,即复合钻柱1(Φ101.6 mm钻杆段全段使用钛合金钻杆)、复合钻柱2(Φ1... 钻井深度的持续增加使钻柱面临的载荷工况越来越严苛。钛合金具有密度小、屈服强度高和弹性模量低等特点,基于井口钻杆抗拉余量设计要求,设计3种钛合金/钢钻杆复合钻柱,即复合钻柱1(Φ101.6 mm钻杆段全段使用钛合金钻杆)、复合钻柱2(Φ101.6 mm钻杆上半段使用钛合金钻杆)和复合钻柱3(Φ101.6 mm钻杆下半段使用钛合金钻杆)。为了探究钛合金/钢钻杆复合钻柱(简称为复合钻柱)的动力学特性,基于Hamiton原理建立复合钻柱的动力学模型,并采用节点迭代法和Newmark-β法对模型进行求解,分析3种复合钻柱的涡动特征、动态应力和振动特性,并与常规钢钻柱进行比较。结果表明:钛合金钻杆的使用可有效减缓钻柱涡动速度、动态应力,其中复合钻柱3的涡动速度、动态应力最小;基于振动特征强度对钻井作业参数进行优化,形成复合钻柱3的钻井作业参数推荐图版并给出合理的施工参数范围。 展开更多
关键词 钛合金钻杆 复合钻柱 超深井 动力学特性 钻井参数
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基于改进YOLOv8n的煤矿井下钻杆计数方法
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作者 姜媛媛 刘宋波 《工矿自动化》 CSCD 北大核心 2024年第8期112-119,共8页
为提高煤矿井下钻杆计数的效率和精度,提出了一种基于改进YOLOv8n模型的煤矿井下钻杆计数方法。建立了YOLOv8n−TBiD模型,该模型可准确检测矿井钻机工作视频中的钻杆并进行有效分割:为有效捕获钻杆的边界信息,提高模型对钻杆形状识别的精... 为提高煤矿井下钻杆计数的效率和精度,提出了一种基于改进YOLOv8n模型的煤矿井下钻杆计数方法。建立了YOLOv8n−TBiD模型,该模型可准确检测矿井钻机工作视频中的钻杆并进行有效分割:为有效捕获钻杆的边界信息,提高模型对钻杆形状识别的精度,使用加权双向特征金字塔网络(BiFPN)替换路径聚合网络(PANet);针对钻杆易与昏暗的矿井环境混淆的问题,在Backbone网络的SPPF模块后添加三分支注意力(Triplet Attention),以增强模型抑制背景干扰的能力;针对钻杆在图像中占比小、背景信息繁杂的问题,采用Dice损失函数替换CIoU损失函数来优化模型对目标钻杆的分割处理。利用YOLOv8n−TBiD模型分割出的钻杆及其掩码信息,根据打钻过程中钻杆掩码面积变小而装新钻杆时钻杆掩码面积突然增大的规律,设计了一种钻杆计数算法。选取综采工作面实际采集的钻机工作视频对基于YOLOv8n−TBiD模型的钻杆计数方法进行了实验验证,结果表明:①YOLOv8n−TBiD模型检测钻杆的平均精度均值达94.9%,与对比模型GCI−YOLOv4,ECO−HC,P−MobileNetV2,YOLOv5,YOLOX相比,检测准确率分别提升了4.3%,7.5%,2.1%,6.3%,5.8%,检测速度较原始YOLOv8n模型提升了17.8%。②所提钻杆计数算法在不同煤矿井下环境的视频数据集上实现了99.3%的钻杆计数精度。 展开更多
关键词 矿井钻机 钻杆计数 YOLOv8n−TBiD BiFPN Triplet Attention Dice损失函数 钻杆掩码 图像分割
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小井眼水平井洗井岩屑清除效率研究
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作者 臧传贞 荆思霖 +2 位作者 路宗羽 宋先知 武兴勇 《石油钻探技术》 CAS CSCD 北大核心 2024年第3期75-83,共9页
为研究小井眼水平井洗井钻柱旋转时的岩屑清除规律,针对玛湖深层三叠系长水平井小井眼洗井工况,进行了相似试验设计,开展了岩屑启动流速和岩屑清除效率的试验研究。试验发现,采用不同排量冲洗岩屑床时,岩屑床呈现稳定运移、沙丘式波浪... 为研究小井眼水平井洗井钻柱旋转时的岩屑清除规律,针对玛湖深层三叠系长水平井小井眼洗井工况,进行了相似试验设计,开展了岩屑启动流速和岩屑清除效率的试验研究。试验发现,采用不同排量冲洗岩屑床时,岩屑床呈现稳定运移、沙丘式波浪运移和整体运移等3种运移形态。试验研究了岩屑床稳定运移形态下岩屑粒径、排量和钻柱转速对岩屑启动流速及钻柱转速对岩屑床高度和形成稳定岩屑床所需时间的影响规律,分析了岩屑床整体运移形态下岩屑粒径、排量和岩屑床初始质量对岩屑床清除效率的影响。研究结果表明,岩屑粒径越小所需启动流速越低,钻柱旋转后等效岩屑启动流速降低45.5%,钻柱转速升高会使形成稳定岩屑床所需时间缩短,岩屑清除效率提高;当岩屑床发生整体运移后,较低排量下岩屑床清除速度受岩屑粒径影响较小,高排量下大粒径岩屑床的运移速度快。排量和钻柱转速是提高洗井过程岩屑床清除效率的关键,而现在洗井时钻柱转速较低,可适当提高钻柱转速,以提高洗井效率。 展开更多
关键词 水平井洗井 钻柱旋转 岩屑启动流速 岩屑床 清除效率
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含表面双裂纹的钻杆管体断裂性能研究
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作者 张智亮 林莹莹 +2 位作者 钱光阳 李文军 李安军 《应用力学学报》 CAS CSCD 北大核心 2024年第3期516-523,共8页
钻杆刺漏是钻杆在服役过程中最常见的失效形式,而钻杆表面裂纹的扩展是钻杆发生刺漏的直接原因。为更有效地评估钻杆表面含有多条裂纹时的安全性能,以某超深直井G105钻杆井口段为研究对象,建立管体外表面双裂纹有限元模型,分析了拉扭载... 钻杆刺漏是钻杆在服役过程中最常见的失效形式,而钻杆表面裂纹的扩展是钻杆发生刺漏的直接原因。为更有效地评估钻杆表面含有多条裂纹时的安全性能,以某超深直井G105钻杆井口段为研究对象,建立管体外表面双裂纹有限元模型,分析了拉扭载荷下裂纹间距、次裂纹尺寸以及走向对环向主裂纹前缘J积分的影响。结果表明:轴向排列的环向次裂纹是相对最安全的,可大幅消减钻杆主裂纹前缘的J积分;环向排列的环向次裂纹相对最危险,可大幅增大钻杆主裂纹前缘的J积分;轴向次裂纹可增大钻杆主裂纹前缘或部分前缘的J积分,但增幅相对环向排列的环向次裂纹来说要微弱得多。次裂纹对主裂纹前缘J积分的影响强度随两裂纹间距的增大或次裂纹尺寸的减小而减小。因此在对含表面双裂纹的钻杆进行分析时,在次裂纹尺寸较大且距离较近的情况下应考虑次裂纹的影响;在次裂纹尺寸较小或距离较远时则可忽略次裂纹,将模型简化为单裂纹钻杆模型进行分析。 展开更多
关键词 钻杆 双裂纹 J积分 安全评估
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超深井控温钻井隔热涂层参数影响机制研究
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作者 宋先知 姚学喆 +2 位作者 许争鸣 周蒙蒙 王庆辰 《石油钻探技术》 CAS CSCD 北大核心 2024年第2期126-135,共10页
为揭示隔热涂层对超深井井筒温度场的影响规律,针对隔热涂层与钻杆的导热特点,采用传热热阻形式计算钻杆的综合传热系数,构建了考虑钻杆内隔热涂层影响的超深井井筒–地层瞬态传热模型,并采用有限差分法对模型进行离散,利用高斯–赛德... 为揭示隔热涂层对超深井井筒温度场的影响规律,针对隔热涂层与钻杆的导热特点,采用传热热阻形式计算钻杆的综合传热系数,构建了考虑钻杆内隔热涂层影响的超深井井筒–地层瞬态传热模型,并采用有限差分法对模型进行离散,利用高斯–赛德尔算法进行迭代求解。通过理论分析和现场数据验证了模型的准确性。研究发现,钻杆内隔热涂层的导热系数对井底循环温度影响显著,随着导热系数减小,井筒环空温度迅速降低,出口温度升高;隔热涂层的厚度和长度对井筒温度也有重要影响,隔热涂层厚度越大,井底循环温度越低。这些发现为超深井钻井过程中井筒温度的调控和隔热钻杆参数的优选提供了重要理论依据。 展开更多
关键词 超深井 钻井 井筒温度 隔热涂层 钻杆 综合传热系数
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钻杆在扭转作用下的变形及抗扭性能分析
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作者 韩春杰 马文倩 +2 位作者 袁建 姜继帅 荆国林 《煤矿机械》 2024年第2期69-71,共3页
钻杆在煤矿勘探开发过程中占据着重要地位,因工作条件恶劣,易失效并造成钻井事故。基于材料力学、工程力学等对钻杆扭转时的切应力及变形量进行分析,建立钻杆在施加纯扭矩作用下的剪应力、单位长度扭转角及抗扭强度计算的力学模型。同时... 钻杆在煤矿勘探开发过程中占据着重要地位,因工作条件恶劣,易失效并造成钻井事故。基于材料力学、工程力学等对钻杆扭转时的切应力及变形量进行分析,建立钻杆在施加纯扭矩作用下的剪应力、单位长度扭转角及抗扭强度计算的力学模型。同时,通过ANSYS仿真得出切应力分布规律及扭转变形量。通过对比,ANSYS仿真结果与理论模型计算结果基本一致,为钻杆失效等进一步研究提供了理论依据。 展开更多
关键词 钻杆 扭转 剪应力 变形量 极限扭矩
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近千米大直径穿强厚含水层降温管井钻孔设计
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作者 杨彦宏 郑利国 《煤炭工程》 北大核心 2024年第10期145-152,共8页
制冷降温是深部矿井热害防治的有效技术手段。以核桃峪矿井制冷降温系统建设工程为背景,针对降温管井钻孔深度大,穿过洛河组巨厚强含水层,长距离输送冷媒保冷等技术难题,在分析工程及水文地质条件基础上,确定管井钻孔两次开孔分段设计参... 制冷降温是深部矿井热害防治的有效技术手段。以核桃峪矿井制冷降温系统建设工程为背景,针对降温管井钻孔深度大,穿过洛河组巨厚强含水层,长距离输送冷媒保冷等技术难题,在分析工程及水文地质条件基础上,确定管井钻孔两次开孔分段设计参数;通过调研管路保冷材料性能,提出复合钢管、静态空气、玻璃微珠增强水泥、钢基复合保温套管四种保冷方法条件下基岩段护壁管设计方案;综合考虑保冷效果、固井可靠性、施工难度等因素,优选工作管采用钢基复合保温套管;并根据套管受力计算,校验护壁管规格参数。工程实施效果表明,井上下降温管始末端温度损失约1℃,可以满足冷媒长距离输送冷量损失要求,对于类似工程具有借鉴价值。 展开更多
关键词 管井钻孔 近千米钻孔 强厚含水层 钢基复合保温套管
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基于DeepSORT和改进YOLOv5的煤矿井下钻杆计数方法
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作者 王向前 史策 《煤炭技术》 CAS 2024年第2期200-204,共5页
针对煤矿井下钻杆计数存在精度较差、效率较低等问题,提出一种基于DeepSORT和改进YOLOv5的煤矿井下钻杆计数方法。首先,设计DR-C3模块,提高YOLOv5网络提取特征的能力;其次,引入GAM注意力机制,减少复杂背景的干扰;然后,通过CARAFE上采样... 针对煤矿井下钻杆计数存在精度较差、效率较低等问题,提出一种基于DeepSORT和改进YOLOv5的煤矿井下钻杆计数方法。首先,设计DR-C3模块,提高YOLOv5网络提取特征的能力;其次,引入GAM注意力机制,减少复杂背景的干扰;然后,通过CARAFE上采样算子扩大感受野;最后,结合DeepSORT算法对钻杆进行实时追踪计数。实验结果表明,改进后的YOLOv5 mAP@0.5提升了2.8%;钻杆计数平均精度达99.4%,检测速度达到93帧/s,计数精度高,满足实际需求。 展开更多
关键词 钻杆计数 YOLOv5 DeepSORT DRConv CARAFE GAM
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某油井G105钻杆断裂失效分析
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作者 程时遐 李德君 +5 位作者 师伟 杨琦 赵元雷 曹锋 尹成先 冯耀荣 《焊管》 2024年第7期56-61,共6页
在某油井深400~500 m处,钻杆1在解卡时断裂,随后钻杆2在打捞落鱼时断裂。采用断口形貌分析、化学成分分析、显微组织分析、力学性能测试等手段分析了两根钻杆断裂的原因。结果表明,钻杆1与井壁摩擦过程中发生相变,强度下降塑性增加,发... 在某油井深400~500 m处,钻杆1在解卡时断裂,随后钻杆2在打捞落鱼时断裂。采用断口形貌分析、化学成分分析、显微组织分析、力学性能测试等手段分析了两根钻杆断裂的原因。结果表明,钻杆1与井壁摩擦过程中发生相变,强度下降塑性增加,发生韧性断裂;钻杆2与井壁摩擦时,形成大量马氏体,韧性恶化,当再次承受拉力时发生脆性断裂。建议监测井内结构变化,保证钻井液的循环畅通,优化钻具结构设计,防止钻杆因相变而断裂,同时禁止工人违规操作,避免钻杆因超载发生断裂。 展开更多
关键词 钻杆 解卡 相变 韧性断裂 脆性断裂
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贵州省岩风阡铝土矿钻探施工工艺研究
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作者 方青 田鹏辉 冉飞 《世界有色金属》 2024年第15期175-177,共3页
贵州岩风阡铝土矿项目实施中钻遇硅质岩层,在钻进过程中产生的钻屑在钻井液漏失孔段不容易排出,易发生埋钻、卡钻、无芯等现象。通过优化钻孔结构、合理选择钻进参数,采用跟管钻进配合绳索取心工艺,有效解决了穿越溶洞的护壁难题,大大... 贵州岩风阡铝土矿项目实施中钻遇硅质岩层,在钻进过程中产生的钻屑在钻井液漏失孔段不容易排出,易发生埋钻、卡钻、无芯等现象。通过优化钻孔结构、合理选择钻进参数,采用跟管钻进配合绳索取心工艺,有效解决了穿越溶洞的护壁难题,大大提高了钻遇溶洞成孔率。采用聚合物凝胶护壁堵漏减少了破碎地层掉块卡钻事故的发生。提高了钻进效率,节约了钻探成本。采用长套管穿越溶洞,降低了报废工作量,提高了工作进度。通过一系列技术措施的实施,如期完成了项目施工任务。本文对该矿区的施工经验进行了总结,希望为类似矿区钻探施工起到借鉴作用。 展开更多
关键词 跟管钻进工艺 溶洞发育 绳索取心 冲洗液 长套管护壁
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