基于单层套管切割的水力内割刀切割参数分析与优化

在腐蚀套管更换工艺实施时,切割套管时若使用常规水力内割刀,在切割过程中存在损伤外部套管的可能性。现在一般选用单管水力割刀切割套管。单管割刀可以保证刀片在切割内层套管时不会损伤外部套管。文章介绍了单管水力割刀的工作原理,以及较常规水力割刀的优点。并针对现场切割参数及结果进行分析,得出现场实际切割过程中切割的优选参数。为后续现场单层套管水力割刀的切割提供依据。

宫腔镜在部分性子宫内膜切除术和子宫肌层切割术的应用

宫腔镜部分性子宫内膜切除术,可治疗异位内膜浸润子宫浅肌层的子宫腺肌症所导致的月经过多和痛经,并可避免术后官腔粘连、子宫挛缩和残留内膜导致的宫腔积血,不影响残留子宫内膜癌变的早期诊断。子宫肌层切割术具有扩大宫腔容积,改善内膜功能的作用,为中、重度创伤性闭经提供了新的有效治疗手段。这两种新的宫腔镜手术方式在妇产科领域具有很大的应用前景。

可变喷距磨料射流多级切割头研制与试验

应用磨料射流切割技术切除海上采油多层废弃井口时,面临的一个突出问题是切割外层套管和隔水管时喷距变大引起作业时间增加,导致作业成本高昂。基于缩短喷距的思路,设计了一种可变喷距磨料射流多级切割头,切割头上布置有固定喷嘴和长、短伸缩杆喷嘴,每种喷嘴具有相互独立的供液流道,因此切割头可提供3种工作模式,即固定喷嘴切割模式、短伸缩杆切割模式和长伸缩杆切割模式。施工作业时,采用投球的方式依次进行3种工作模式的转换。理论计算表明,使用3mm喷嘴时,长、短伸缩杆工作模式可分别将无因次喷距减小至使用固定喷嘴时的1/27与1/16.7,有效提高了射流的能量利用率。地面试验表明,可变喷距多级切割头使用方便,流道转换可靠,比普通固定喷嘴式切割头切割效率显著提高,可大幅度缩短作业时间,降低作业成本。

聚酯类工程塑料的爆炸精确切割

阐述了聚酯类工程塑料—聚甲基丙烯酸甲酯(PMMA)的爆炸切割原理,给出了爆炸切割所需炸药装药量的计算模型,设计了一种爆炸精确切割聚能装药,并进行了试验验证,为聚能装药精确切割航天航空用非金属类器材部件开辟了新的应用途径。

海上油田单筒双井套管切割技术

海上油田低效井治理措施中,浅层拔套管侧钻技术是一项简单有效的方法,但当前海上油田老平台单筒双井日趋增多,常规单筒单井浅层切割拔套管技术因浅层防碰问题已无法满足作业要求。此文撰写主要目的即通过当前技术和工具解决上述难题。主要技术方法和思路为,套管切割决策树论证分析、套管切割点防碰分析和水力割刀优选;依据中海油定向井防碰标准对割点防碰分离系数、中心距等参数进行三维定量分析,确保割刀在极限偏心状态时作业零风险。同时根据切割套管尺寸、层数和磅级优选组合最佳水力割刀型号,并预备合适的磨铣工具以应急需;该项技术在渤海蓬莱及多个油田成功应用,不仅开创了单筒双井浅层切割拔套管的先例,同时也大大降低了作业成本和风险。在气井或高气油比井作业时,建议对两口井弃置或进行下部临时封堵,防止因人员误操作和数据误差引起的“割伤”邻井事故。该项技术未来可在单筒三井和深水丛式井进行尝试和推广。

超高压磨料射流技术切割多层套管在海上应用探讨

近年来,中国海域部分采油平台已临近废弃期,为了高效、安全、环保地对即将到达寿命的海上平台设施进行拆除,在渤海某平台弃置项目中,采用磨料射流超高压强套管内切割技术,对弃置平台9口井的双层及三层水泥固封隔水套管进行一次性切割作业,以探寻海上平台弃置项目提质增效。此次项目中,通过超高压射流作业,平均每口井套管一次性切割作业时长2 h,对比常规水利割刀逐层传统切割作业提效40%,此次海上作业项目中磨料射流高效切割成果,为未来海上平台弃置项目中的井口弃置作业提供了重要的技术指导依据和经验总结。

红透山井下电耙道矿体资源回收技术研究与应用

我国是一个资源匮乏的大国,针对井下高斗留矿法采场和小中段空场法采场电耙道底板至切割层底板之间的设计永久损失部分矿体,通过确定合理的技术方案,成功回收。

一种经济型精密快速原型制造技术

在分析目前已有的各种快速原型制造技术缺点的基础上 ,提出了一种新型的基于刀具切线切割轮廓的厚层叠层制造技术。该技术通过改造三坐标钻铣床为五坐标数控铣床 ,利用现有的三维CAD软件 ,配置切片软件 ,达到了降低成本、提高精度和效率的目的。介绍了系统的组成方案以及初步的成形实验。

Longhole waterjet rotary cutting for in-seam cross panel methane drainage

In order to improve the efficiency of gas drainage before and during longwall extraction,a waterjet rotary cutting system has been developed for in-seam cross panel methane drainage.The purpose of the water rotary cutting system developed was to create artificial fractures along the gas drainage boreholes.During the design of the system,it was perceived that the nozzle geometry is one of the key factors,affecting cutting capacity.Therefore,we studied the structural and geometric parameters of the nozzle and optimized its performance during laboratory tests and numerical simulation.Underground trials conducted in a coal mine,indicate that production of gas drainage before and after cutting significantly increased by up to three times.The advantages of waterjet assisted gas drainage method has been identified as:1) increasing gas drainage efficiency,2) a possible development of a gas drainage fractured network within coal seams associated with panel extraction,and 3) reducing the risk of exceeding gas limits during longwalling.

锈蚀和荷载对钢筋粘结强度的影响

主要以锈蚀程度、预加荷载、保护层厚度、钢筋类型 (光圆钢筋和变形钢筋 )以及龄期为变量 ,通过一系列试验 。

Gas drainage efficiency improvement by increasing coalbed permeability using waterjet cutting system

This paper presented a method to create artificial fractures along the existing gas drainage borehole and increase the permeability of the coalbed using a high pressure waterjet cutting system.The field work conducted in Rujigou Colliery, Shenhua Ningxia Coal Group demonstrate that the coalbed permeability is increased, and accordingly, gas drainage efficiency is improved up to 3 to 6 times over the traditional methods using high pressure waterjet technique.Also, based on the monitoring data, the conceptual model for gas drainage process associated with different mining activities has been proposed, and few major advantages using waterjet assistance method have been identified.

磨料射流切割多层套管技术的适用性分析

随着海上采油平台开采时间的增加和油气资源的枯竭,越来越多的平台弃置摆在了油田开发者面前,在泥面以下切割多层废弃套管作为平台弃置的第一步,切割能力强、效率高、环保无污染等目前仍无成熟做法。本次利用8口井的磨料射流切割效果,对比传统的水力割刀切割,对磨料射流切割成败原因进行了深入分析,提出了磨料射流切割多层套管的使用条件及适用范围。研究结果能指导海上弃置平台多层套管的切割作业。

海上油套同压井弃置技术方案与工程实践

随着渤海油田进一步开发,不少生产井进入油田开发后期,需进行油田的弃置作业。近期渤海油田首先在20南生产平台进行了弃置作业,该平台主要为气井、生产年限较长,存在管柱腐蚀严重、井口带压、油套管同压等问题,而弃置处理面临海洋生态环境保护以及弃置设备和工艺技术要求高、费用高等情况。针对这些问题提出"优先封闭源头、次选封闭通道,力求两点同时做到"的技术思路,依据国家、行业相关法律法规,采用挤注法压井工艺、镁粉切割配合常规打捞工具起管柱、多层套管一次切割技术进行弃井试验,并在封堵后针对压力异常问题来源进行分析,通过进行上部井段补充下入桥塞弃置,为海上油气井的弃置作业提供借鉴。

White Layer of Hard Turned Surface by Sharp CBN Tool

White layers in hard turned surfaces were identified and measured as a function ot turning parameters based on the Taguchi method. It reveals that white layers generate on the machine surface in the absence of tool flank wear, and white layer depth varies with the different combinations of hard turning parameters. Turning speed has the most important impact on white layer depth, feed rate follows, and cutting depth at last. The white layer generation consequently suggests a strong couple relation to the heat generation and thermal process of hard turning operation. White layer disappears under an optimal combination of turning parameters by Taguchi method. It suggests that a superior surface integrity without white layer is feasible under some selected combinations of turning parameters by a sharp CBN cutting tool.

Construction of an ultra-deep diaphragm wall:a case study

This paper presents a case study on an ultra-deep diaphragm wall with a depth of 110 m constructed in Ningbo City. The in-situ application shows that using Bauer BC40 cutter machine in conjunction with cutter wheels specified for different strata would be qualified for constructing the 110 m diaphragm wall with high efficiency and precision given that the quality of slurry and poured concrete can be guaranteed. The ground settlement can be effectively controlled by using the overlapping construction method. Sliding failure as a whole characterized by pronounced lateral deformation is likely to occur in the upper muddy clay layer due to its high compressibility and sensitivity. In contrast, local collapse of trench walls tends to happen in the sandy silt strata. Furthermore, careful attention should be paid to sandy silt during the entire construction period as the vertical displacement of the sandy silt continues to develop even atter concrete pouring.

牛血红蛋白应用于小鼠创面修复的初步研究

目的探究牛血红蛋白(Hb)对小鼠创面修复的影响及其机制。方法建立糖尿病小鼠和昆明小鼠全层皮肤切割伤模型。随机分为生理盐水组(NS组)与Hb组。糖尿病小鼠和昆明小鼠给药后分别观察14和10 d。计算各组小鼠皮肤创伤愈合面积和创面愈合率。糖尿病小鼠给药后7和14 d取组织,观察创面组织病理学变化;利用免疫组化法分析给药后7 d创面组织中白细胞介素(IL)-1、IL-10、血小板-内皮细胞黏附分子(CD31)、骨髓祖细胞抗原(CD34)表达水平。结果给药后7 d,糖尿病小鼠Hb组创面愈合率达到(23±4)%,显著高于NS组(P<0.01);给药后14 d,Hb组愈合率达到(93±6)%,显著高于NS组(P<0.05)。昆明小鼠给药后3、7和10 d,Hb组愈合率分别达到(32±9)%、(73±7)%和(83±3)%,显著高于NS组(P<0.01)。与NS组相比,糖尿病小鼠给药后7 d,Hb组创面CD31和CD34表达有所增强,IL-10表达显著增强(P<0.01)。结论牛血红蛋白促进糖尿病小鼠和昆明小鼠创面愈合,可能与增加血管新生和促进抑炎因子表达有关。