查询词典 well-spent
- 与 well-spent 相关的网络例句 [注:此内容来源于网络,仅供参考]
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After extracted acousticwave properties, used the ratio of P-S velocity ,vacuity modules ratio, Poisson ratio and amplitude ratiometer to identify the property of fluid of BD1531 well,DF11S3 well and WZ1171 well. Obtained the quantity of these parameter in different fluid in the three wells.
综合利用纵横波速度比、岩石空间模量、泊松比以及幅度差比对莺琼盆地BD1531、DF11S3以及WZ1171井储层流体性质进行识别,得到了这几个参数在气层、水层和干层处的取值范围。
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In order to do research on pipe flow and pump characteristics of polymer flooding and water flooding rod-pumped well in especially high water-cut stage, rheometric test aimed at production stream from polymer flooding and water flooding rod-pumped well in especially high water-cut stage has been made, and the characteristic of production stream in especially high water-cut stage is confirmed as Newtonian fluid. Experiments using different mediums about pipe flow and pump characteristics is made. Frictional resistance and coefficient of friction resistance of annulus fluid between sucker rod and the pipe flow is calculated under different working conditions. Frictional resistance between plunger and pump barrel under different parameters is calculated based on related theory of pump characteristic and the strained analytical model of oil-well pump. Besides, using the theory of slit flow and hydraulic -clamping pressure, the frictional resistance is calculated, and the error between the result and measured value is no more than 13%.
为研究特高含水期水驱及聚驱抽油机井管流特性与泵特性,本文针对特高含水期水驱及聚驱井采出液进行了流变性试验,确定了特高含水期油井采出液的性质属牛顿流体;利用不同介质,进行管流特性与泵特性试验,得到了不同工况下杆、管环空流的摩擦阻力和摩阻系数;根据泵特性相关理论和抽油泵受力分析模型,计算了不同参数下柱塞与泵筒间的摩擦阻力,并利用缝隙流与液压卡紧力理论对柱塞与泵筒间的摩擦阻力进行了计算,计算结果与实测值误差在13%以内。
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As a new rodless oil production equipment, the ESPCP can be applied in high-viscosity, wax content, sand or gas content well, and radically resolve problems met by sucker rod screw pump applied in heavy oil production such as break of rod , offset-abrasion of rod tube and limit to apply in deep or deviation well .The unit also overcomes the low efficiency of ESP pumping high viscosity oil and especially applied in directional well .
潜油电动螺杆泵作为一种新型的无杆采油设备,可用于高粘度、含腊、含砂、含气原油的开采,从根本上解决了有杆螺杆泵在稠油开采中的抽油杆断脱、杆管偏磨和在深井、斜井中使用受到限制的问题,而且也克服了潜油电动离心泵输送稠油效率低的缺陷,特别适用于定向井的原油开采。
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Four aspects of research achievements include:(1)several imaging correction methods and strained estimation methods for biological tissues elasticity imaging were investigated as well as elasticity reconstruction and phantom, in vitro and in vivo elasticity imaging experiments;(2)in the fields of biological microsystem and perfusion evaluation for microvascular system, three kinds of microbubbles whose shell are albumin, sugar ester and surfactant respectively were designed and produced, then the methods to estimate the thickness of their shells were presented, moreover, the interacting mechanism of ultrasound contrast agents and tissues, as well as protein drug delivery under the condition of ultrasound sonification were studied in the molecular level;(3) At the aspect of high intensity focused ultrasound therapy system, we designed and constructed the 256-element HIFU transducers using 1-3 composite materials. And furthermore we developed the integrated HIFU system with 256-element HIFU transducers. And we made preliminary and important progresses in the research of HIFU bioeffect, lesion estimation, techniques of monitoring and imaging and characterizing of structure of HIFU transducer;(4)The real-time method of voice source regeneration based on compensative regulation of physiological parameters was investigated in the field of medical rehabilitation. We addressed the physiology and biophysics of vocalization, modeled voice source regeneration based on compensative regulation mechanism, and put forward an integrated evaluation about the speech rehabilitation and the regenerated voice source; Sixty-one archived journal papers were published, as well as ten in international journals, and eighteen publications were embodied by SCI.
成果包括:(1)在生物组织弹性成像方面,研究了多种图像校正方法和应变估计方法,进行了弹性重构和仿体、离体及在体超声弹性成像实验研究;(2)在生物微系统和微血管血流灌注成像方面,制备了三种不同包膜超声造影微泡,研究了纳米包膜厚度检测与估计方法以及不同纳米包膜造影微泡断裂与药物释放机制,并在分子层次上开展了超声与生物组织相互作用机制以及蛋白质药物超声乳化微囊包裹的研究;(3)在阵列式高强聚焦超声治疗与监控成像技术方面,设计制作了新的HIFU换能器,解决了256阵元单焦点和多焦点合成HIFU治疗系统关键技术问题,并在HIFU生物效应与创伤性评价方法、HIFU过程监控成像技术和薄层复合结构与HIFU 换能器界面特性评价等方面的研究取得了初步而重要的进展,具有重要应用前景;(4)在语音听觉系统特别是嗓音康复方面,研究了基于发声系统补偿调节机制的实时多模式嗓音源再生方法和发声生理,建立基于神经、肌肉和空气动力系统的综合补偿调节模型,提出了相应的评价系统。
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Four aspects of research achievements include:(1)several imaging correction methods and strained estimation methods for biological tissues elasticity imaging were investigated as well as elasticity reconstruction and phantom, in vitro and in vivo elasticity imaging experiments;(2)in the fields of biological microsystem and perfusion evaluation for microvascular system, three kinds of microbubbles whose shell are albumin, sugar ester and surfactant respectively were designed and produced, then the methods to estimate the thickness of their shells were presented, moreover, the interacting mechanism of ultrasound contrast agents and tissues, as well as protein drug delivery under the condition of ultrasound sonification were studied in the molecular level;(3) At the aspect of high intensity focused ultrasound therapy system, we designed and constructed the 256-element HIFU transducers using 1-3 composite materials. And furthermore we developed the integrated HIFU system with 256-element HIFU transducers. And we made preliminary and important progresses in the research of HIFU bioeffect, lesion estimation, techniques of monitoring and imaging and characterizing of structure of HIFU transducer;(4)The real-time method of voice source regeneration based on compensative regulation of physiological parameters was investigated in the field of medical rehabilitation. We addressed the physiology and biophysics of vocalization, modeled voice source regeneration based on compensative regulation mechanism, and put forward an integrated evaluation about the speech rehabilitation and the regenerated voice source; Sixty-one archived journal papers were published, as well as ten in international journals, and eighteen publications were embodied by SCI.
中文摘要:成果包括:(1)在生物组织弹性成像方面,研究了多种图像校正方法和应变估计方法,进行了弹性重构和仿体、离体及在体超声弹性成像实验研究;(2)在生物微系统和微血管血流灌注成像方面,制备了三种不同包膜超声造影微泡,研究了纳米包膜厚度检测与估计方法以及不同纳米包膜造影微泡断裂与药物释放机制,并在分子层次上开展了超声与生物组织相互作用机制以及蛋白质药物超声乳化微囊包裹的研究;(3)在阵列式高强聚焦超声治疗与监控成像技术方面,设计制作了新的HIFU换能器,解决了256阵元单焦点和多焦点合成HIFU治疗系统关键技术问题,并在HIFU生物效应与创伤性评价方法、HIFU过程监控成像技术和薄层复合结构与HIFU 换能器界面特性评价等方面的研究取得了初步而重要的进展,具有重要应用前景;(4)在语音听觉系统特别是嗓音康复方面,研究了基于发声系统补偿调节机制的实时多模式嗓音源再生方法和发声生理,建立基于神经、肌肉和空气动力系统的综合补偿调节模型,提出了相应的评价系统。
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Once it would have stomped home well behind the likes of an Arcam, but the '875 delivers a natural, uncoloured stereo sound, well focused and well judged.
有一次,它有点象Arcam功放的味道把家庭气氛搞得像模像样,但875功放传送出一种自然、未经着色的立体声效果,很好地关注、很好地判断。
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The air well drilling is one kind of practice underbalance drilling,compared with other well drilling relatively have one's own advantages improve the speed of drilling,Protect the oil gas from bearing formation,find the oil and gas in time,but require especial equipment,Minimum displacement in the air well drilling is the difficult point,and its key too.
空气钻井是一种实用的欠平衡钻井,与其他钻井比较有自己的优势:提高钻速,保护油气层,及时发现油气,但装备要求高;空气钻井中最小排量的是难点,也是其关键点。
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Well, i agree on some points, at least that it was unrespectful and he took maelks place, but look, maelk lost also the intention to play, so it was either kuro or maelk who would go to smm with MYM with the same feeling: i dont wanna be with this team(or dont wanna play, whatever its the same, lack of motivation i guess), as it popped out from kuro as well, a bit late as u say, but i read the whole blog, and i actually dont believe he found this out to leave mym before smm, it was clearly after smm i guess, after talking the ehome's managger, seeing how their team failed, and feeling dissappointed, its acceptable from my side, and i guess all kuro fans will accept this decision, even though it seems to give up and blame a bit the team and teammates as well besides blaming himself.
好吧,我同意misery的一些观点,至少kuroky在抱有离队心态的情况下取代maelk的位置是不值得称道的,但是maelk也没有继续打dota的意愿了,所以不论kuroky还是maelk去打SMM都是一样的:我不想和这支队伍一起比赛(或者不想打dota了,不管怎么样都差不多,我想是失去动力了)。当看到kuroky发表离队声明的时候,如你所言确实有点晚,我实在不能相信kuroky在SMM之前就已经想离队了,我想应该是在SMM他对自己队伍的失败感到失望,并与EHOME的经理交谈之后才有这个想法的,这样对于我来说更容易接受一些。我想Kuroky的粉丝会接受这个决定,即使这看起来是放弃了队伍,并且有一点责怪队伍的感觉。
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The combined production of vertical and horizontal wells can make horizontal well production rates be 2 to 5 times greater than unstimulated vertical well rates, but the areal sweep efficiency is less than that of vertical well pattern untill when the perforation ratio is greater then a certain value, which depends on the pattern of the combination. Seven spot pattern of the combination of vertical and horizontal wells has some advantages over others.
当水平井和直井联合面积布井时,在同样的压差下,水平井的产量要高于相应直井井网的直井产量的2~5倍,但只有当穿透比达到一定程度,或水平井达到一定长度时,其波及系数才高于相应直井井网的波及系数(五点法井网的穿透比界限为0.521,七点法井网的穿透比界限为0.430),因而在水平井开发油气田时,必须保证水平井一定的长度,这样从长远的观点,水平井才能显示出优势,对比性分析表明,水平井和直井的七点法联合布井和直井井网以及水平井和直井的五点法联合布井井网相比,具有一定的优势,数值模拟表明,在水平井和直井的联合面积布井的各种方式中,改进的九点井网是一种较好可取的布井方式。
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Aiming at ShengPing oil field low recovery percent, production rate, composite water cut and far well spacing, by untabulated reservoir well testing, development potential analyses and a series of important measures analyses, this paper takes infilled well pattern to improve oil field developing efficiency.
本论文针对永乐油田采出程度不高,综合含水较低,采油速度较低,井距又相对较大的实际情况,通过开发潜力分析及对油田开发过程中所进行的一系列重大调整措施效果分析研究的基础上,提出了通过实施以加密调整为重点的综合调整措施,达到改善和提高油田开发效果。
- 相关中文对照歌词
- Well Well Well
- Well, Well
- Well Well Well
- Well, Well, Well
- Well, Well
- Well, Well, Well
- Well, Well, Well
- Well Well Well
- Well Well Well
- Well Well Well
- 推荐网络例句
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With Death guitarist Schuldiner adopting vocal duties, the band made a major impact on the scene.
随着死亡的吉他手Schuldiner接受主唱的职务,乐队在现实中树立了重要的影响。
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But he could still end up breakfasting on Swiss-government issue muesli because all six are accused of nicking around 45 million pounds they should have paid to FIFA.
不过他最后仍有可能沦为瑞士政府&议事餐桌&上的一道早餐,因为这所有六个人都被指控把本应支付给国际足联的大约4500万英镑骗了个精光。
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Closes the eye, the deep breathing, all no longer are the dreams as if......
关闭眼睛,深呼吸,一切不再是梦想,犹如。。。。。。