厄瓜多尔Parahuacu油田低压高渗小间隙尾管固井技术

Parahuacu油田位于厄瓜多尔56、57油区,该油田已进入开发的中后期,主力油藏为NAPO组U、T层砂岩,属于低压高渗储层,部分地层油水活跃。针对尾管固井对油层封固质量和油层孔隙低伤害的双重要求,通过研究固井对储层伤害、水泥浆防水窜及前置液界面增强机理等,优选了低密度减轻材料HGS6000、低密度悬浮稳定剂BCJ-310S、界面增强剂SS-5L,形成了低伤害防窜水泥浆体系、复合酸性界面增强前置液体系及配套工艺技术,解决了低密度水泥浆强度低稳定性差、水泥浆污染储层、水泥环界面胶结强度低等问题。前期施工的两口井油层优质率100%,尾管全井段优质率90%,投产后日均增产原油10m3/d,原油含水率下降3%,显示了良好的应用效果,为后续尾管固井施工提供了技术支撑,为该油田持续增产稳产创造了良好条件。

深井低压高渗储层水平井钻井液技术——以塔里木东河塘油田为例

介绍了东河塘低压高渗超深水平井应用暂堵型抗温防塌润滑钻井液体系。东河塘油田已进入油田开发中后期,油藏埋藏深(垂深5700m以上)、井温高(140℃以上),地层压力系数在0.78-0.95,应用常规钻井液体系不仅对储层产生损害,并且极易发生压差卡钻。针对上述难题,选用暂堵型控温防塌润滑钻井液体系,对该区块水平井钻井液施工工艺进行了优化和完善,解决了超深水平井低压高渗油气层保护难题。该钻井液体系具有良好的井眼清洁、润滑防卡能力,钻井液各项性能指标优良,保证了DH1-6、DH1-9井、DH1-15井等多口井的施工顺利,满足了深井低压高渗水平井钻井技术工艺的发展要求。

低压高渗调整井固井水泥浆体系研究与应用

大庆油田针对调整井储层流体介质的变化可能带来的固井质量问题,分析了近年来调整井固井质量变化规律,试验研究了以喇嘛甸聚驱试验区为典型区块的储层流体水质特点,探索了影响调整井固井质量的主导因素,提出了防渗增强水泥浆体系的研究思路和配套措施,经过室内实验和现场应用,见到了较好效果。

适合高渗低压层的水泥浆体系研究

大庆喇嘛甸油田开发后期,调整井钻井、固井均在已有的层系条件下进行。虽然大庆油田全面实施了延时测井,但延时测井后固井质量变差,主要是由地层的高渗透性和地层水对水泥的腐蚀因素引起。针对喇嘛甸油田地层的高渗、低压特点,选取A级水泥与G级水泥,分析对比了其在三个区块的固井优质率,从而确定了以G级水泥为基础的适合高渗低压层的防腐蚀水泥浆体系。声变检测结果表明,该体系能够满足大庆喇嘛甸油田高渗低压层固井施工的需要。

南苏丹3/7区高渗低压层固井质量研究

油田在经历长期开采后容易形成高渗低压层,通过研究高渗低压层泥饼弱界面形成的机理、水泥浆过度失水和地层流体渗流及腐蚀作用对弱界面的影响等来说明高渗低压层对固井质量产生的不利影响,借鉴针对大庆油田喇嘛甸区块高渗低压采取的诸如防渗防窜水泥浆体系、改性G级水泥、具有屏蔽封堵功能的低渗钻井液体系以及钻井液界面增强剂等技术措施,在不断完善南苏丹3/7区的固井工艺和水泥将体系的同时,优化南苏丹3/7区钻井液体系及洗井钻井液性能等钻井工程方面的做法,确保泥饼薄而致密、井径规则,最终达到南苏丹甲方对固井质量的要求。

高渗低压油层压力保持技术研究

针对喇嘛甸油田喇北西二区高渗低压,基础井网、葡Ⅰ-2井网注水井钻关降压快地质特点,确定补水试验方案,选择补水井网,分井网对油层进行压力保持技术研究。确定了边缘压力和补水回注压力,并进行了现场技术试验。

高渗低压地层对固井质量的影响分析

现场作业中发现,延时条件下高渗低压层固井质量差。通过套管-水泥环界面应变检测、微观结构分析方法,提出了固井弱界面概念,给出了弱界面的三种微观结构模型,给出高渗低压地层影响固井质量机理。

高渗低压油藏钻完井油层保护技术研究

随着世界能源需求的增加和钻探技术的发展,随着各油田开发程度的不断提高,地下情况变得越来越复杂,地层压力下降,储层疏松,加大了油层保护和固井作业的难度,对提高固井质量提出了新的要求。固井质量直接关系到后续钻井、完井、开发、提高采收率强化开采措施的顺利进行,涉及油田勘探开发的进程,涉及油气资源的合理开发,涉及油田勘探开发的经济效益,而固井本身也是一项隐蔽性强、不确定因素多、涉及多学科、投资大(占钻井费用的15%-30%)、风险大、且具有一次性作业特点的地下系统工程,任何一个环节或因素考虑不周,都可能引发固井质量问题。

水平井多段塞完井液的研制及应用

针对低压高渗油藏水平井筛管完井过程中存在的漏失、泥饼解除不彻底等问题,研发了酸洗防漏一体化多段塞完井液技术。该技术采用高黏替浆段塞活塞式替浆,大幅提高了替浆效率;在酸洗中采用酸洗防漏一体化段塞,酸开一段暂堵一段,大幅提高了水平段的井底完善程度。现场试验结果表明,采用该技术能大幅提高筛管完井水平井的产能。

影响高渗低压层固井质量因素及对策分析

利用延时声变测井检测结果和完井电测等相关资料 ,对影响大庆油田高渗低压层固井质量的因素进行分析 。

超低侵害钻井液技术在大庆油田喇嘛甸区块的应用

大庆油田喇嘛甸区块主力油层由于长期的注水开发,造成水洗严重、砂岩储层胶结变得疏松、岩石强度下降明显,严重影响了钻井井身质量和固井质量。室内在乳液高分子钻井液的基础上进行了超低侵害处理剂合理加量的配伍性实验,通过测试砂床滤失量对超低侵害乳液高分子钻井液进行了室内性能评价。该钻井液在喇嘛甸地区试验应用了8口井,这些井现场施工顺利,井径较为规则,完井延时声变固井质量优质率达到了50%,远远高于上一年30.88%的优质率水平,可以看出,超低侵害钻井液技术可以用于解决类似喇嘛甸地区的高渗低压油层的井径异常扩大、固井优质率较低的问题,提高3次加密调整井的钻井施工水平。

Dynamic effects of high-pressure pulsed water jet in low-permeability coal seams

Mine gas extraction in China is difficult due to the characteristics such as micro-porosity,low-permeability and high adsorption of coal seams.The pulsed mechanismof a high-pressure pulsed water jet was studied through theoretical analysis,experimentand field measurement.The results show that high-pressure pulsed water jet has threedynamic properties.What's more,the three dynamic effects can be found in low-permeabilitycoal seams.A new pulsed water jet with 200-1 000 Hz oscillation frequency andpeak pressure 2.5 times than average pressure was introduced.During bubble collapsing,sound vibration and instantaneous high pressures over 100 MPa enhanced the cuttingability of the high-pressure jet.Through high-pressure pulsed water jet drilling and slotting,the exposure area of coal bodies was greatly enlarged and pressure of the coal seamsrapidly decreased.Therefore,the permeability of coal seams was improved and gas absorptionrate also decreased.Application results show that gas adsorption rate decreasedby 30%-40%and the penetrability coefficient increased 100 times.This proves that high-pressurepulsed water is more efficient than other conventional methods.

苏丹六区FN油田固井技术

苏丹六区FN油田主力储层有Aradiba、Bentiu和AbuGabra地层;由于地质条件区别和井身结构制约,其主要固井难点为Aradiba和Bentiu地层的固井作业。针对该储层高孔、高渗、低压和井壁易失稳的特点,通过对非渗透水泥浆性能的优化和高效悬浮型前置液的研究,配合平衡压力固井技术,有效解决了Aradiba和Bentiu地层固井易漏及水泥浆顶替效率低,二界面固井质量差的问题。该技术在FN油田成功应用15口井,第一、第二界面固井质量均为优质,为油井的早日投产提供了良好的通道。

压力不均衡区块提高固井质量探讨

在2004—2006年3年时间内，萨北开发区纯油区西部北二西地区进行三次加密及二类油层注聚共钻井584口。该地区由于井网复杂、断层多、油层发育差异大，导致平面上、纵向上地层压力分布极不均衡，特别是在东西块交界处存在一个贯通南北的压差条带，地质情况复杂。另外这次钻井是大面积钻井，新井网井距小、井网密度大，钻井前涉及全面钻降，对整个区块的压力系统影响很大。针对这些复杂情况，结合以往实践经验，摸索出一套提高固井质量的配套方法，有效保证了新井的固井质量，为以后北三西开发调整提供了借鉴。

CO_2 permeability of fractured coal subject to confining pressures and elevated temperature: Experiments and modeling

The CO_2 permeability of fractured coal is of great significance to both coalbed gas extraction and CO_2 storage in coal seams, but the effects of high confining pressure, high injection pressure and elevated temperature on the CO_2 permeability of fractured coal with different fracture extents have not been investigated thoroughly. In this paper, the CO_2 permeability of fractured coals sampled from a Pingdingshan coal mine in China and artificially fractured to a certain extent is investigated through undrained triaxial tests. The CO_2 permeability is measured under the confining pressure with a range of 10–25 MPa, injection pressure with a range of 6–12 MPa and elevated temperature with a range of 25–70°C. A mechanistic model is then proposed to characterize the CO_2 permeability of the fractured coals. The effects of thermal expansion, temperature-induced reduction of adsorption capacity, and thermal micro-cracking on the CO_2 permeability are explored. The test results show that the CO_2 permeability of naturally fractured coal saliently increases with increasing injection pressure. The increase of confining pressure reduces the permeability of both naturally fractured coal and secondarily fractured coal. It is also observed that initial fracturing by external loads can enhance the permeability, but further fracturing reduces the permeability. The CO_2 permeability decreases with the elevation of temperature if the temperature is lower than 44°C, but the permeability increases with temperature once the temperature is beyond 44°C. The mechanistic model well describes these compaction mechanisms induced by confining pressure, injection pressure and the complex effects induced by elevated temperature.