原油管线在线等质量取样系统设计及实现

为了有效解决原油长输管线反复出现的原油途耗异常问题,通过对原油油种、工艺条件和原油输送方式等的分析,设计了等质量流量比例采样系统,由该系统实现原油管线在线自动取样。系统投用后,实现了实时对量,及时发现损耗异常情况,有效控制了原油途耗不稳定的问题。采用等质量流量比例采样模式,较好地解决了多油种、边收边付、多种输送方式以及流量范围宽等不利因素影响计量的问题,具有较好的参考和推广价值。     

海底柔性管道技术研究

随着海洋油气勘探开发的发展,柔性管道得到越来越广泛的应用。文中介绍了柔性管道的分类及结构,重点描述了粘结和无粘结柔性管道,无粘结柔性管道是目前国外发展趋势和研究重点。阐述了柔性管道的技术优势以及适用范围,同时介绍了柔性管道的发展状况、设计准则以及国外的主要制造厂商。国内柔性管道技术与世界先进水平之间还存在较大的差距,采用无粘结技术以及适用超深水环境将是国内未来深水海底柔性管道技术发展的方向。     

X80管线钢管的屈强比对其失效评估曲线的影响

X80及以上级别管线钢管的高屈强比是工程应用中的一个突出问题,失效评估曲线是其安全评定的重要依据。文中通过单轴拉伸和断裂韧性试验建立了高屈强比X80管线钢管的特征失效评估图及拟合方程。结果表明：随着钢管屈强比升高,失效评估曲线的截至线（最大载荷比）降低;高、低屈强比钢管的评估曲线在载荷比大于某一临界值时发生分离,且高屈强比钢管的评估曲线处于低屈强比钢管的评估曲线之下;高屈强比钢管的选择3评估曲线比选择1和选择2曲线更偏于安全。     

盾构法联络通道密封垫设计及防水试验研究

为探究适合盾构法联络通道工程的密封垫断面形式,以宁波市轨道交通3号线第1条盾构法联络通道为工程背景,针对遇水膨胀橡胶设计阴阳凹凸、圆形孔洞、梳形、矩形等4类断面。对各断面形式进行可行性分析,选取阴阳凹凸断面与矩形断面作为初选方案。利用Abaqus/Explicit计算模块对2种断面的接触应力进行有限元分析,通过设计“一”字缝耐水压力试验,验证数值模拟中接触应力较大的矩形断面的防水能力。研究表明： 1）数值模拟结果显示,接触面最大接触应力与平均接触应力均随着张开量的增加而减小; 同等张开量与错台量下,在压缩与膨胀2个阶段中,矩形断面的接触应力均大于阴阳凹凸断面,因此选取矩形断面作为备选方案。2）“一”字缝耐水压力试验结果表明,矩形断面密封垫保压48 h后耐水压力明显提升,且张开量越大耐水压力提升幅度越大。3）综合数值模拟与试验结果可知,该矩形断面密封垫满足0.6 MPa的防水要求。     

垂直水幕作用下扩建地下水封油库布局方式研究

为研究垂直水幕对扩建地下水封油库布局方式的影响,以某大型地下水封洞库分期建设工程为依托,采用有限元数值模拟方法,对有、无垂直水幕条件下扩建洞库的布局方式进行研究。研究结果表明： 1）当两期洞库间距较小时,在两期洞库之间设置垂直水幕可有效削弱拟建洞库对已建洞库水封可靠性的影响,随两期洞库间距的增加,垂直水幕的影响性逐渐减弱; 2）拟建洞库轴线方向对水封可靠性的影响受地形等条件的影响较大,在两期洞库之间设置垂直水幕对水封可靠性的影响较小; 3）随拟建洞库埋深的增加,拟建洞库的水封可靠性逐渐增强,已建洞库的水封可靠性却呈逐步减小趋势,在两期洞库之间设置垂直水幕可有效减小埋深对两期洞库水封可靠性的影响。     

不同冷却方式对大尺寸钢板感应加热成形的影响

为有效解决船用中厚钢板复杂曲面加工问题,研究空气冷却(空冷)、正面水冷和反面水冷方式对大尺寸钢板弯曲成形的影响因素。首先采用COMSOL Multiphysics仿真平台模拟电磁感应加热和冷却变形多物理场同步耦合过程,然后分析各种因素对大尺寸钢板弯曲成形的影响,最后通过试验验证有限元模型的可靠性,并对感应加热弯曲成形效果进行评估。结果表明:相对于水冷,空气冷却对钢板Y向位移改变效果显著;相对于空气冷却,水冷对钢板角位移的改变影响明显;当频率为50 k Hz时,电流频率对表面温度和角位移影响显著;当钢板长宽比不小于1∶2时,Y向位移的增加比较显著;当长宽比约为1∶1时,角位移的改变比较明显。     

Property Evolution of Sulphoaluminate Grouting Material under Pressure Circulation北大核心CSCD

Water-sealed underground oil tank projects are quite different from traditional underground projects since the water-sealing conditions are very strict and the difficulties caused by the geological specificity, structural specificity and construction specificity are key factors affecting the project. In light of the significant early initial setting time and rapid temperature increase of sulphoaluminate cement-based grouting material for a large domestic water-sealed underground oil tank with pressurized cyclic grouting, a laboratory grouting simulation is conducted. It is found that the properties of the sulphoaluminate cement-based grouting material are quite different under different pressure cycles, the hydration exothermic peak time gets shorter with an increase of circulation time, the compressive strength decreases with an increase of circulation time, and the longer the circulation time the more obvious the de-crease of compressive strength. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

Mechanism of Tunnel Water Inflow Caused by Bending Failure of a Waterproof Dike Based on a Circular Thin Plate Mechanical Model北大核心CSCD

Water bursts during tunnel construction endanger construction, and it is therefore necessary to reserve a waterproof dike with the required thickness to avoid water bursts and to take reinforcement of the dike and treatment of the structure liable to trigger a water burst. Using the water burst at K5+398 of the Mingyueshan tunnel of the Shanghai-Chengdu expressway as an example, and considering the type of tunnel section and the upright mudstone of the dike, the waterproof dike at the work face is simplified as a round thin plate. A formula for the calculation of a minimum safety thickness for the critical waterproof dike is deduced by analyzing the force applied on the water-proof dike, and the minimum safety thickness for the water burst section at K5+398 of the Mingyueshan tunnel is cal-culated. The numerical simulation analysis demonstrates the critical thickness of waterproof dike at K5+398 of the Mingyueshan tunnel is 1.4-1.55 m, and the calculated water inflow and water burst basically agree with the actual condition. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

Model Test on Grouting Law in Dynamic Water-Rich Sand Layers by the Electric Resistance Method北大核心CSCD

In order to study the diffusion law of grouting slurry in the water-rich sand layer under flowing water conditions, a grouting test model consisting of a main test system, a grouting system, and a measurement system was developed. And for detecting the diffusion scope of the grouts, a new resistivity method was proposed. It is found that the relationship between grouting pressure and grouting rate during the test is strong. Under hydrodynamic conditions, the grouting slurry diffuses elliptically. Due to gravity and the effect of the upper water flow, the center of gravity of the ellipsoid is below the grouting outlet, and the grouting effectively improves the physical and mechanical properties of water-rich sand bodies. At the same time, the resistivity method has a good application effect on the detection of grouting diffusion range. The range of slurry diffusion obtained by the resistivity method is basically consistent with the boundary of the stone body after excavation, indicating that the resistivity method is reliable for detection of grouting range in dynamic water-rich sand layer. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

油田注水管道的腐蚀研究与缓蚀剂评价

油田注水管线所输送介质复杂,腐蚀现象严重,存在安全隐患,一旦因腐蚀泄漏就会造成巨大的经济损失。因此,开展油田注水管道的腐蚀研究及采取措施减缓腐蚀具有重要意义。为此,对某油田注水管道现场采集注入水样及腐蚀产物,通过X-射线衍射及X-射线能谱仪进行分析,分析结果表明腐蚀产物主要是碳酸钙,同时含有一定量的氯化物、碳酸亚铁、硫化物等成分。通过电镜扫描腐蚀产物的微观形貌,发现存在氯离子腐蚀。并通过ICP-OES分析输送介质组分,针对其腐蚀特点及输送介质组分,采用失重法及电化学方法评价了引入季铵盐的咪唑啉缓蚀剂HJD2最佳质量分数及缓蚀机理,实验结果表明该缓蚀剂对该注水管道具有较好的缓蚀作用,在现场注水温度下,最佳质量分数(0.06%)时的缓蚀效率为95.1%,通过注入该缓蚀剂可以有效地减缓该注水管线的腐蚀,延长管线的使用寿命。