1)lost circulation井漏
1.Improvement of sampling method in cutting logging under lost circulation;井漏条件下岩屑录井取样方法的改进
2.A new method predicting pre-drilling risk in lost circulation formation;一种井漏层位钻前风险预测新方法
3.On Treating Drilling Lost Circulation and Overflow of Inter-salt Non-sandstone;盐间非砂岩钻井井漏与溢流处理
英文短句/例句
1.Well Leakage Treatment on 244.5mm Case of Well Lishen 1 before Cementing梨深1井Φ244.5mm套管固井前的井漏处理
2.Study and Application of Lost Circulation Resistance and Control Technology during Drilling;钻井工程中井漏预防与堵漏技术研究与应用
3.Analysis of contact stress between thief zone wellbore and bellow pipe油气井井漏井壁与波纹管接触应力分析
4.grout hole drilling钻开注有堵漏水泥的井
5.Water filters through the sandy soil and into the well.水漏过沙土后流进井里。
6.Research Progress on Lost Circulation Materials and Lost Circulation Control Technology钻井液堵漏材料及防漏堵漏技术研究进展
7.A sudden escape of a confined gas or liquid, as from a well.漏水,漏气井中突然喷出之气体或液体
8.The Research on and Application of the Cementing Technique for Wells of Easy-channeling and with Weak Formations;低压易漏、易窜井固井技术研究与应用
9.Treatment Method of "Upper Blowout and Lower Loss" Section in Well Gao 15-19高15-19井“上喷下漏”井段的处理方法
10.Application of Intermediate Casing Well Cementing Technology for Open Hole Interval in Low Pressure and Lost Circulation Formation低压易漏裸眼井段技术套管固井技术
11.Cementing technology of using leak protection and water shutoff drilling fluid in LIN 4-36X Well林4-36X井防漏防窜水泥浆固井技术
12.Raise construction for vertical coal bunker:technical practice in shaft wall water leakage prevention and control立井煤仓反井施工及井壁防渗漏水技术的实践
13.The Study on the Preventing and Plugging Flow Technology in Beisi District;大庆油田北四地区钻井防漏及堵漏技术研究
14.The technology of leak resistance and sealing and the overview of a new device防漏堵漏固井工艺技术及新型设备概述
15.Applications of down-hole bi-directional flow valve in the absorption oil wells井下双向流动阀在易漏失油井中的应用
16.Study and Application on Cementing Technology for Low Pressure Lost Circulation Wells in East Sichuan;川东地区低压漏失井固井技术研究与应用
17.Hole sloughing prevention and antileakage drilling technology in deep buried hill inside well drilling in Jizhong depression of Huabei Oilfield冀中坳陷深潜山内幕井防漏、防塌钻井技术
18.Oil well logging to find missing and channeling techniques in Tahe oilfield油水井找漏找窜测井技术在塔河油田的应用
相关短句/例句
circulation loss井漏
1.The circulation loss may occure usually in cementing in the formations of low pressure,leakage zones or fractured formation,so it will pollute the pay zones,reduce the penetration rate and increase the drilling cost.在固井施工中,经常会在低压易渗、漏失或裂缝性等地层发生井漏事故,不仅污染了油气产层,降低了机械钻速,还相应地增加了钻井成本。
2.Biolithite loss zone is a kind of special reservoirs where rock structure is frailish and lot of pore spaces and gas exist, while severe circulation loss and well blowout and well kick occur.礁灰岩漏失地层是一类结构脆弱 ,并含有大量孔洞和气体的特殊地层 ,常常是严重井漏与天然气的井喷井涌并存。
3)Mud losses井漏
1.After drilling the upper intervals with gas/air, water base muds were used to drill thelower parts of the holes, leading to a series downhole problems such as hole instability and mud losses.分析了气体钻进后顶替钻井液初期容易发生井塌、井漏等复杂情况的原因,介绍了解决川东北地区气体钻进后井壁失稳的钻井液技术对策、技术方案及防止井壁失稳的钻井液工艺技术。
2.Mud losses in these formations were difficult to stop.在冀中油田和冀东油田的某些区块打井,有时会发生伴随停泵外吐钻井液的浅层井漏,这种井漏的堵漏成功率低,易发生反复漏失。
4)loss circulation井漏
1.The requirement and efficiency of using low density bridging loss circulation material and modified directional well configuration to leakage resistance in buried hill formation were discussed.介绍了任456井井漏原因及堵漏经验。
5)completion loss完井井漏
6)deep well circulation loss深井井漏
延伸阅读
井漏反吐井漏反吐在地层存在漏失通道和一定容纳空间、通道开口尺寸大于泥浆中的固相粒径、井筒液柱压力大于地层孔隙压力的情况下,即会发生不同程度的井漏。针对不同的漏失情况及漏速大小所采用的堵漏方法较多,如硬颗粒架桥、纤维材料充填的桥接堵漏、高失水dtr、pcc堵漏、注水泥塞封堵等,堵漏次数或多或少,时间或长或短,一般情况下很复杂的漏失也能堵住。川西地区须家河以上地层岩性主要为泥岩、砂岩、页岩,产层主要为微裂缝沟通的致密砂岩孔隙气藏,原生裂缝尺寸较小,井漏少有发生,且堵漏较易成功。但在该地区近期少数井在钻井过程中发生的“井漏反吐”现象,致使钻井施工复杂化,堵漏均无功而返,被视为堵不住的井漏,而此种“井漏反吐”现象相关资料少有记录。笔者通过分析l105井、mp11井等井发生的“井漏反吐”现象,认为“井漏”主要是由于循环或挤堵时井内压力超过上部低压地层的承压能力,蹩裂撑开地层,形成一定容量的封闭性裂缝而引起漏失,属压裂性圈闭漏失,“反吐”是开井或停止循环后施加的压力释放,被撑开的裂缝闭合,其中钻井液被压出的过程。一、“井漏反吐”现象描述“井漏”过程:是在循环钻井液过程中,自开泵起,出口钻井液返出量明显低于泵排量,泥浆罐液面下降,在一定泵排量情况下,“漏失”速度逐渐减少;或在关井挤压〈如堵漏施工〉过程中,在挤注压力一定的情况下,钻井液持续被挤入地层。“反吐”过程:是“井漏”以后,各种原因停泵,如接单根、起钻或关井挤堵后开井,井口立即外溢返浆,开始返出量较大,如同井涌,后返出量由大到小,渐至不返,反吐钻井液量与“井漏”钻井液量接近,静止时间长也不井涌、井喷,并且不影响起下钻。若再次开泵,“井漏反吐”现象再次发生。采用各种堵漏方法、措施均不易奏效。如采用桥接堵漏法时,关井挤堵时开泵泵压不高,停泵压力急剧下降,如不停泵,在一定泵压下,则井漏畅通无阻,但套压不升。一旦开井,井口立即外溢。mp10井曾实施全井筒大颗粒桥接堵漏,情况也是如此。三、“井漏反吐”原因分析对于“井漏反吐”现象的认识尚不统一,现将几种分析表述如下;1)由于堵漏关井蹩压挤堵时,挤注压力超过井筒上部另外一低压地层的承压能力,蹩裂撑开地层,且该地层无连续的裂缝性通道(图示1),形成一定容量的封闭性裂缝。继续挤注,将该裂缝撑得更大一点,容量也就更大一些。当开井时施加的压力释放,被撑开的裂缝闭合,其中钻井液被压出,所以井口马上返出钻井液,当裂缝内钻井液返完即停止,返出量略小于漏入量(漏入量越大,蹩压时间越长,裂缝闭合时也会滞留一部份在裂缝内)。由于裂缝已被蹩开,在此后循环钻井液时,环空循环阻力作用于该处,当大于它的承压能力时,裂缝再次张开,钻井液再次“漏失”,停泵时循环阻力消失,裂缝再次闭合,钻井液再次反吐,此种漏失属压裂性圈闭漏失。2)堵漏关井挤压作业时,由于压力过高,将原井漏裂缝撑开更大些,压裂撑开地层,当压力释放时,裂缝闭合,泥浆外溢返出。3)堵漏关井挤压作业时,蹩开井筒上部承压能力低的地层,形成与地面水连通的裂缝(图示3),由于水头压力低于挤注总压力发生井漏,钻井液进入裂缝达到一定垂直高度,提高了该裂缝的水头压力,开井时裂缝中提高了水头压力大于井筒泥浆静液柱压力,则发生井涌反吐钻井液,钻进循环时,流动阻力将一部份钻井液推入裂缝,停泵时流动阻力消失,被推进裂缝的泥浆回压至井筒发生井涌反吐。以上几种意见,笔者认为第一种可能性较大,理由如下:1)原漏层不可能发生井漏反吐现象①堵漏作业前井漏,无反吐现象,说明该漏层为连通性较好的裂缝,存在泄压的通道,所以只进不出。
