体积压裂时套管弯曲应力放大计算分析

页岩气井体积压裂过程中套管所处力学环境复杂,体积压裂中套管受力情况目前尚未得到清晰的解释。针对此力学问题,研究认为存在套管应力放大的问题,文章系统阐述了体积压裂过程中套管弯曲应力放大诱因,建立了轴向拉力下套管弯曲应力放大模型,推导了弯曲应力放大计算公式。结果表明,轴向拉力和狗腿角是影响体积压裂中套管弯曲应力放大的主要因素,水泥环虚空段长度影响较小。此外,拉-弯应力与泵压联合作用使套管抗外挤强度降幅达23. 7%,套管抗外挤安全系数已经低于三轴安全系数规定值,严重威胁套管安全,极易在体积压裂中诱发套变。最后,文章提出规避体积压裂套管弯曲应力放大的技术对策。

Mechanisms and field test of solution mining by self-resonating cavitating water jets

Rapid solution mining is the key to cavern construction in salt formations. Rapid solution mining technology with self-resonating cavitating water jets is described in this paper. It can generate three main physical effects： helical flow dissolution, self-resonating cavitating jet erosion, and ultrasonic waves. A self-resonating cavitating nozzle was also designed with the principles based on theory of fluid transients and hydro-acoustics. Under ambient pressure, the experimental results show that the impulse amplitude of pressure reaches a peak at a standoff distance of 5-13 times the nozzle outlet diameter and the cutting ability of self-resonating cavitating jets is twice that of conventional jets under the same conditions. Compared with the conventional mining method, the field test indicates that rapid solution mining technology with self-resonating cavitating jets can speed the construction by more than 2 times at the pocket stage of cavern development.

长余辉荧光粉在光催化系统中的应用研究进展

长余辉荧光粉是一种新兴的有广泛应用前景的发光材料,在停止激发后仍可保持发光.近年来,具有独特光学性质的长余辉荧光粉得到了发展,其在光催化领域的应用也得到了广泛的研究.长余辉材料具有脱离光源的特点,可以有效地在黑暗环境中推动光催化反应的进行;同时,长余辉荧光粉的超长发光寿命使其在长时催化体系中占有重要地位,使全天候光催化成为可能.简单来说,长余辉荧光粉被证明是一种新出现的功能材料,在光催化方面具有前所未有的优势.本综述总结了长余辉荧光粉在污染物降解、杀菌消毒和高效制氢领域中应用的最新进展.

Key technologies and practice for gas field storage facility construction of complex geological conditions in China

In view of complex geological characteristics and alternating loading conditions associated with cyclic large amount of gas injection and withdrawal in underground gas storage(UGS) of China, a series of key gas storage construction technologies were established, mainly including UGS site selection and evaluation, key index design, well drilling and completion, surface engineering and operational risk warning and assessment, etc. The effect of field application was discussed and summarized. Firstly, trap dynamic sealing capacity evaluation technology for conversion of UGS from the fault depleted or partially depleted gas reservoirs. A key index design method mainly based on the effective gas storage capacity design for water flooded heterogeneous gas reservoirs was proposed. To effectively guide the engineering construction of UGS, the safe well drilling, high quality cementing and high pressure and large flow surface injection and production engineering optimization suitable for long-term alternate loading condition and ultra-deep and ultra-low temperature formation were developed. The core surface equipment like high pressure gas injection compressor can be manufactured by our own. Last, the full-system operational risk warning and assessment technology for UGS was set up. The above 5 key technologies have been utilized in site selection, development scheme design, engineering construction and annual operations of 6 UGS groups, e.g. the Hutubi UGS in Xinjiang. To date, designed main indexes are highly consistent with actural performance, the 6 UGS groups have the load capacity of over 7.5 billion cubic meters of working gas volume and all the storage facilities have been running efficiently and safely.

基于CFD的节流-摩擦混合型ICD控制特征

为研究油气井流入控制器(ICD)完井技术,针对混合型ICD压降控制模型不完善的问题,进行了压降控制特征的分析研究,利用CFD软件开展流场流速和压力分布计算模拟,分析了流体流量、流体黏度和装置几何参数对节流-摩擦混合型ICD压降的影响。特别对比了摩擦型ICD与节流-摩擦混合型ICD在相似工况下流体不同黏度时的压降计算数据。分析结果表明:流体在节流-摩擦混合型ICD孔口处压力瞬时降低,流动时压力损失小,以节流压降为主;进入节流-摩擦混合型ICD后流速逐渐增大,在孔口处达到峰值,从孔口流出后,流速又迅速降低,在隔板流道中重新分布;流体流量是压降的主要影响因素,流体黏度是次要影响因素,隔板间距对压降的影响最小,可以忽略不计;与摩擦型ICD相比,节流-摩擦混合型ICD对流体黏度敏感性差,流体黏度差值一定的情况下,节流-摩擦混合型ICD产生的压降远低于摩擦型ICD产生的压降。研究结果可以为ICD完井工具的设计和现场应用提供参考。

绒囊钻井流体在金坛储气库硬脆性泥岩地层的应用

金坛盐穴储气库建井过程中钻遇三垛组、戴南组裂隙发育硬脆性泥岩发生坍塌扩径、起下钻遇阻卡等井下复杂情况。采用绒囊添加适量甲酸钠,开发出既能抑制黏土水化又能实现内封堵抑制自由水侵入地层的强抑制封堵型钻井流体。室内通过泥岩滚动回收率测定添加过甲酸钠的绒囊体系抑制性,岩心封堵试验测定其封堵性。三垛组泥岩经清水浸泡的平均滚动回收率为28.19%,聚合物钻井液平均滚动回收率为50.66%,而绒囊钻井液的平均滚动回收率达93.52%,表明该体系抑制性极强。钻井液封堵含裂缝岩心后驱替,注入端压力上升至18 MPa,表明封堵能力强。应用于金坛茅X井三垛组、戴南组裂隙发育泥岩井段,起下钻无阻卡,电测一次成功,井径扩大率仅为8.2%,而邻井井径扩大率达18%。结果表明,绒囊与甲酸盐组配的强抑制封堵型钻井流体具备强抑制性和强封堵性,解决了裂隙发育泥岩地层井壁失稳的问题,为解决同类型地层难题提供可选择的技术。

渭北煤层气老井改造优化设计与实践

渭北煤层气田传统定向井和直井面临压裂改造效果差、单井产量低等生产难题,根据井网部署和煤层地质特点,提出了适合渭北煤层气老井改造的水平井布井方案。针对渭北煤层气田上部地层漏失、下部煤层埋深和厚度变化大、煤层易垮塌等水平井钻井难点,利用Petrel软件进行地质建模,准确标定煤层层位,通过Landmark钻井工程设计软件计算并精确建立了入靶井斜-靶前距-井眼狗腿度计算图表,实现不同地层倾角、厚度下的井眼轨迹优化设计;配套优选可循环微泡沫钻井液,解决上部地层漏失和煤层垮塌严重问题。现场应用表明,水平段位于煤层以上3 m范围,水平井全井段钻井液漏失量低,钻进速度快;同时通过集成应用分段压裂改造技术,水平井在主力11#煤层横向上可一次改造6口低效生产井,压裂缝网之间和井间干扰明显,有助于增大泄流面积,提高水平井单井产量。

页岩剪切摩擦与非稳态滑移特性实验

龙一1亚段页岩是川南页岩气开发的主要目的层,实践表明水平井单井产气量对井轨迹所在小层较为敏感.龙一1亚段页岩各层脆性矿物组分、弹性模量变化幅度小,采用常规页岩脆性评价方法和模型不能有效评价川南龙一1亚段各小层页岩的可压性,借鉴地震学地震成核原因研究思路,提出利用稳态-非稳态破坏特征来表征各小层可压性.优化设计一种页岩剪切摩擦、稳态-非稳态特性实验方法,利用川南页岩地面露头进行线切割制样开展相关实验测试,分析研究页岩摩擦系数受层理性构造、矿物组分、法向应力大小的影响,表征量化不同矿物组分下的页岩稳态-非稳态特征,确定了速度弱化向速度强化转换的粘土矿物含量临界值.以川南昭通YS108井区龙一1亚段页岩储层为例,对各小层可压性进行整体评价,得到:龙一^1~21层较易开启剪切滑移,且易形成网状裂纹,储层整体可压性好;龙一^31层较难开启剪切滑移,但裂纹为单一裂纹、网状裂纹过渡状态,储层整体可压性较差;龙一^41层较易开启剪切滑移,但裂纹则呈现单一状态,储层整体可压性较差.