1) BHFP
井底破裂压力
2) bottom-hole fracturing pressure
井底压裂压力
3) fracture pressure
破裂压力
1.
Prediction of formation fracture pressure with logging data in Tahe oilfield;
利用测井资料预测塔河油田地层破裂压力
2.
Rock mechanical parametric experiments and the research of formation fracture pressure prediction
岩石力学参数试验与地层破裂压力预测研究
3.
Effects of crustal stresses and natural fractures on fracture pressure of coal reservoirs
地应力与天然裂缝对煤储层破裂压力的影响
4) breakdown pressure
破裂压力
1.
Determining breakdown pressures in transversely isotropic formation by multipole array acoustic logs;
利用多极子阵列声波测井资料计算横向各向同性地层破裂压力
2.
By combining with formatting density logging,we calculated parameters of rock elasticity and intensi- ty using multi-pole array acoustic logging,and performed for- rnation stress analysis to determine breakdown pressure and drilling fluid density.
地层破裂压力在钻井施工、钻井液的选取及水力压裂等方面有着重要的意义。
3.
Then breakdown pressure,caving pressure and drilling fluid density can be obtained,which will act as references for drilling design to guide safe drilling.
文章利用声波、密度测井资料计算了岩石力学参数、岩石强度参数,在此基础上进行了地应力计算、进而确定了地层破裂压力和坍塌压力,预测了安全钻井液密度范围,为钻井设计提供参考,并可指导安全钻井。
5) fracturing pressure
破裂压力
1.
Establishing the models for calculating the fracturing pressure of formation rock during oil/gas wells fracturing by using fracture mechanics theory;
应用断裂力学理论建立油气井压裂时岩石破裂压力计算模型
2.
Based on the influence of stress sensitivity on the logging surface fracturing pressure,an interpretation model for.
地层破裂压力是钻井液密度确定、井身结构和压裂设计施工的基础数据。
3.
A vast amount of information of drilling、testing and new logging technologies are used to analyze and process four wells logging data in extremely difficult drilling area with complex geologic structure,from which we have obtained geostress distribution features,rock mechanical and wellbore stability parameters including rock strength,fracturing pressure and sanding index,etc.
利用大量的测井新技术及钻井、试油等资料,在一个地质构造复杂、钻井施工极端困难地区同时进行了4口井的测井资料处理与分析,查清工区应力分布特征,计算岩石的各类强度参数,进而得出岩石的破裂压力、出砂指数等重要的井眼稳定性评价参数。
6) bottom hole pressure
井底压力
1.
New model for calculating bottom hole pressure of multiphase flow in annulus of underbalanced straight well;
欠平衡钻井环空多相流井底压力计算模型
2.
Slug flow appears very often in swabbing well and usually results in complexity of bottom hole pressure change,and swabbing recovery may make bottom hole pressure more unforeseeable.
抽汲井极容易出现段塞流而导致井底压力变化非常复杂,采用的抽汲生产将进一步加剧井底压力的不可预见性。
补充资料:锅炉、压力容器、压力管道及特种设备定期检验
锅炉、压力容器、压力管道及特种设备定期检验
periodic inspection of boilers, pressure vessels, pressure piping and special equipment
guolu YOli侧飞扣1 YOli gLJal对印ji tez陌叩劝以拍1 dingqi】,on四n锅炉、压力容器、压力管道及特种设备定期检验(peri诫c inspectionof城le。,p~切reves-Sels,p~二piPing ands衅过闪uiplr屺nt)为保证设备的安全使用,规定设备必须按一定周期进行法定的、强制性的检验。定期检验由政府设立的检验所、使用单位或行业检验站进行。检验单位及检验人员必须具有与所检设备相适应的资格。设备使用单位应该建立定期检验制度,做好检验计划,按时向检验单位提出申请。检验单位应该保证及时进行检验,检验按有关检验规则进行。检验时,设备使用单位应做好配合工作,提供必要的运行资料。检验完毕,检验单位要出具检验报告,对设备能否使用,要作出明确结论。如设备有缺陷,要提出是否修理、监护使用和报废的处理意见。锅炉压力容器安全监察机构根据检验机构的报告,发使用许可证书。有缺陷的,责令使用单位修理,修理后检验仍不符合安全要求的,则通知报废。使用单位逾期不进行定期检验,锅炉压力容器安全监察机构有权停止其设备运行。(陈亦惠)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条