复杂气井套管力学分析与可靠度评价

为建立考虑地层和套管参数随机性的套管可靠度评价理论方法,以便得到复杂井况下套管传统设计安全系数与可靠指标之间的关系,提出了非均匀地应力和内压联合作用下,沿套管最大外挤力方向管壁任意位置发生屈服失效时外壁等效均匀外挤力的计算方法;建立了套管抗挤和抗内压三轴强度计算公式以及有效内压计算方法;根据套管载荷和强度影响因素统计参数以及评价过程中参数测试标准值,利用蒙特卡洛法（MC）建立了完整的套管可靠度计算和评价方法;通过实例对传统安全系数与可靠指标的对应关系进行了研究。研究结果表明:指定条件下,套管安全系数与可靠指标之间存在对应关系;利用建立的方法编制计算程序可以为传统设计法中安全系数代表的安全程度进行量化;可靠度评价方法能够为安全系数的选取提供指导。     

低铬油套管钢材在不同工况下的腐蚀规律研究

目的 研究低铬油套管钢材在不同腐蚀环境中的腐蚀特征。方法 采用高温高压动态反应釜对1Cr、3Cr这2种常用低铬油套管钢材进行纯CO2、CO2和低浓度H2S共存条件下的腐蚀试验。结果 温度在40~80 ℃条件下,各种钢材的腐蚀速率随着温度的升高而变大。加入低浓度H2S后,可以抑制CO2腐蚀,且随着温度升高,抑制性逐渐减弱。分析认为,在单独CO2环境以及CO2和低浓度H2S共存的环境中,1Cr、3Cr钢表面出现铬富集现象,形成的Cr(OH)3膜保护基底。同时,在CO2和低浓度H2S共存的环境中,1Cr、3Cr钢表面形成致密的FeS产物膜有助于保护基底,抵抗Cl^－侵蚀。结论 低Cr钢表面因铬的富集形成钝化膜,能有效抑制油套管的腐蚀速率,以上研究成果对CO2和低浓度H2S环境中的腐蚀理论以及油田油套管材料合理选择均有一定指导意义。     

天然气引射调峰系统的噪声形成及其治理研究

采用天然气引射调峰技术,能使上海某储配站10台天然气高压球罐的储气调峰能率提高68%,大大有助于解决天然气用气高峰时的供需平衡问题,并能节约初投资人民币1亿元.但使用超音速引射器后,当球罐压力下降到某一值时会产生高频噪声,影响管束区操作环境.本文分析了噪声产生的原因,提出了合理的噪声治理方案,并进行了方案的实施.实践证明:噪声治理效果良好,降低了管束区噪声污染,达到了国家"工业企业噪声卫生标准".     

套管损伤磁记忆检测信号定量研究

在油气生产过程中,井下套管损伤会造成井况恶化,致使正常井转变为套损井。为了防止套损井的出现和安全事故的发生,有必要对套管进行早期损伤检测。采用金属磁记忆检测技术,开展了实验研究。实验中,通过对套管内壁环切,将套管壁厚设计为等值递增和不等值递增两种形式;根据实验数据,对磁记忆检测信号梯度值、信号梯度波峰值及信号梯度峰宽值等特征参量与壁厚、壁厚变化量的定量关系进行拟合。结果表明:磁记忆检测信号梯度值、信号梯度波峰值及信号梯度峰宽值等特征参量,可以很好的表征套管壁厚的变化情况;信号梯度值与套管壁厚呈线性递增关系;信号梯度波峰值和信号梯度峰宽值均与套管壁厚变化量呈线性递增关系。该试验结果有助于完善磁记忆检测技术的定量化研究和利用磁记忆原理检测套管损伤的评价体系。     

CASING AND LEAK DEPTHS,AND SOLUTE TRAVEL TIMES TO WELLS1

ABSTRACT: A mathematical solution based on porous media flow is developed for solute travel time to a well as affected by a leak around the upper part of the casing. Consider a well of radius 0.2 meters (m) penetrating, fully, a semiconfined aquifer of thickness 6 m with impermeable casing length of 4.5 m, and screened casing length 1.5 m. Around the upper 1.5 m of the impermeable casing length, there is a highly permeable region (a leak). The radius of influence of the well is 10 m. The porous flow medium has a hydraulic conductivity of 10 m/day and a porosity of 0.25. Between the water table and the water level in the well, there is a steady state pumped down head difference of 0.3 m. Solute travel time from a point at the bottom of the leak to the well is 2.33 days. If the leak is sealed (grouted), the travel time is 6.24 days. Examples of six different geometries are given. Laboratory studies verify the theory. The computations should be useful in the design and protection of water wells from solutes, such as from agriculture, industry, strip mines, or sanitary landfills.     

低含H2S工况下110SS的超临界CO2腐蚀行为

目的 明确低含H2S工况下,110SS钢在超临界CO2相中的适用性及腐蚀行为.方法 利用高温高压反应釜对高温高压低含H2S气井的井底腐蚀工况进行模拟,采用腐蚀失重法获取腐蚀速率,结合激光共聚焦显微镜、扫描电子显微镜(SEM)、能谱仪(EDS)及X射线衍射仪(XRD)对腐蚀行为进行分析研究.结果 在141℃、13.3 M...     

双套管长距离干灰输送系统在330 MW机组上的应用

介绍了国电电力建设研究所的双套管输送干灰技术在国电谏壁发电厂330 MW机组第一电场长距离干输灰中的应用,重点介绍了系统设计、安装、调试和运行,以及系统性能测试情况.     

离心压气机增效扩稳技术研究及高海拔应用

目的为提高离心压气机高海拔气动性能提供新的研究方法。方法分析叶片弯/掠造型及机匣处理两种压气机增效扩稳的技术及机理,并采用数值模拟的方法对比分析了海拔5500 m条件下原型叶轮及采用叶片前掠叶轮的气动性能。结果相比于原型叶轮,采用前掠叶型的压比最多可提高3.09%,效率可提高0.71%,叶轮流道内流动损失减小,叶轮高海拔气动性能得到了提升。结论对低雷诺数下离心压气机机匣处理结构的应用有一定的指导作用。     

煤岩地层绳索取芯装备研发及应用实践

煤矿井下取芯是准确判定煤层瓦斯、煤层和地层赋存情况的主要方法之一。受井下作业空间的限制以及待取煤（岩）层特征的影响,尤其是煤（岩）体破碎时,实现取芯往往很难。介绍一种煤矿井下绳索取芯技术,通过改进井下钻机及钻具,实现了煤矿井下高效取芯。井下绳索取芯岩芯采取率高,工人劳动强度低,其技术具有推广应该价值。     

Inherently safer sustained casing pressure testing for well integrity evaluation

This paper presents the use of a model to predict sustained casing pressure (SCP), from early pressure buildup data, as a basis for inherently safer well integrity testing. Inherently safer principles aim to eliminate or reduce the hazards by design rather than by using protective features. SCP, a well integrity issue exhibited in many wells, is any measurable pressure that rebuilds after being bled down and attributable to causes other than artificially applied pressure or temperature fluctuations in the well. Intrusion of gas, resulting in SCP, can occur because of poor cement bond in the casing or cement deterioration. Gas entering the annulus migrates to the wellhead and represents a hazard due to increased wellhead pressure and the gas inventory. Compromised well integrity can have catastrophic consequences on both environmental and safety aspects.Most regulations require the monitoring, testing and, eventually, the elimination of SCP. However, test data analysis is predominantly qualitative and limited to arbitrary criteria. Due to the high percentage of wells that present SCP, accurate, safe and preferably fast testing methods are needed. This paper implements an analytical model, rooted in the transport processes and thermodynamics of the system, to predict pressure profiles and gas accumulation during SCP testing from early-time pressure buildup data. The amount of gas accumulated during different testing criteria, being 1) current practices and 2) early diagnostic by the analytical model, is calculated and compared. Results show that using the analytical model as a predictive tool, testing time is reduced significantly, thereby limiting the amount of gas accumulated and reducing the risk. This makes the testing procedure inherently safer as well as less time consuming.