目的层

通过理论计算及与实际资料对比。确定煤层转换横波能量主要集中在0.2H～1.3H之间（H为目的层深度），据此即可确定煤田多波地震勘探P&SV波偏移距范围。

Through theoretical calculation and actual data comparison , made sure that coal seam transformed shear wave energy is mainly concentrated between 0.2H ~ 1.3H ( H is the depth of target stratum ), then the P-SV wave offset range in coalfield multiwave seismic prospecting can be set on .

塔东地区寒武、奥陶系为有效的烃源岩及储层，为研究目的层系。

The Cambrian-Ordovician system is the effective source rock and container rock in the east Tarim area , and it 's the target stratum .

再通过LANDMARK系统，进行显示和沿目的层作层位切片，为描述油藏的储集特征，提供了极好的手段。

To display by LANDMARK system and chip along target formation are good means for describing reservoir characteristics .

静31-59井是中国第一口双分支侧钻水平井。该井位于沈阳油田静17区块，目的层为S3段。

Well Jing 31-59 is the first bi-lateral horizontal well of China located in Jing 17 block of Shenyang oilfield .

库姆组碳酸盐岩为主要勘探目的层，其中库姆组C4段为主要产层。

Qum Formatiom with carbonate is mainly exploration aim stratum , the C4 member of Qum Formatiom is mainly production layer .

介绍并利用费歇尔（Fisher）判据分类方法识别划分目的层，并把这种方法与马哈诺比斯（Mahalanobis）距离分层方法加以比较。

Fisher criterion is introduced and used to identify the bed of interest , it is compared with Mahalanobis distance zonation method .

在没有条件获得实验室岩心T2截止值时，以目的层T2双峰分布谱峰谷的T2值作为T2截止值；

Use of the T2 value of the valley in bimodal T2 distribution as the T2 cutoff value when the T2 cutoff value from core analysis is not available ;

本文采用PRONY滤波方法，以阻尼滤波分解信号、做非线性滤波，直接求取目的层段的吸收系数。

The paper used PRONY filtering method that decomposes the signal by damping filtering , implements non linear filtering and directly computes the absorbing coefficient .

采用平面玻璃夹砂模型直观形象地研究了黄胞胶／Cr＋3调剖剂对非目的层的污染情况，讨论了注入速度、地层渗透率级差对调剖效果的影响。

The damage of profile control agent of xanthan / Cr ￣( + 3 ) to the non-target formation is studied visually by using planar sand-packed glass model . The influences of the injection rate and formation permeability variation on the profile control effectiveness are discussed .

同时，利用井壁崩落法、钻井诱导缝法和DSI快横波方位法确定了新疆迪那气田目的层的水平主应力方向。

Furthermore , the horizontal stress direction of the target zone in the gas field is determined by means of borehole breakout data , drilling-induced fracture and DSI Fast shear azimuth .

利用模型正演（AIMS）技术，研究目的层段地震波的形成机理，对地震剖面上T52反射层的上超点与真正目的层的上超点间的关系进行分析；

Forward modeling ( AIMS ) is used to research generated mechanism of seismic wave of objective and analyze the relationship between the onlap point of T 2 ~ 5 reflection and that of real objective .

文章还得出了目的层煤岩Mohr断裂准则二次抛物线型包络线，煤层水压致裂裂缝形式判断，裂缝开裂角方位的计算公式以及有关结论。

The paper al-so obtains the formulas to draw the second power parabolic Mohr envelope , to decide the crack form of the coalbed from hydraulic fracture , to calculate the incipient crack angle and some related conclusions .

针对大庆油田油气层具有埋藏深、井底温度高和目的层多等特点，研制出了一种新型的适用于深井固井抗高温水泥浆，即DHL丁苯胶乳高温防窜水泥浆。

A novel deep well cement slurry named DHL styrene butadiene latex high temperature channeling cement slurry has been developed to adapt the formation characteristics of Daqing oilfield such as deep buried reservoir , high bottom hole temperature and multitudinous target beds .

通过成藏组合分析，在Jabung区块西部发现新含油气层系，增加了新的目的层系和勘探潜力。（3）以油气系统为基础的区带及圈闭评价理论；

Petroleum play analysis made new hydrocarbon-bearing formation discovered in the west part of the Jabung Block . play assessment theory based on petroleum system ;

中新生代沉积盆地表现为典型下部断陷型和上部坳陷型盆地结构，最大沉积厚度8000～10000m，沉积主洼形态较好，晚&早第三纪是盆地主要的勘探目的层系。

The Cenozoic sedimentary basin shows a typical structure of lower faulting and upper depression , the maximum thickness is 8 000 ~ 10 000 m , and the Paleogene and Neogene are the main target strata of the basin .

窿4井是玉门青西地区1口重点探井，设计井深4700m，主要目的层K1Z。

Long well 4 is an important one in Qing-xi area of Yumen Oilfield , and its design depth is 4700m , and its main destination is K 1Z .

经过处理研究，采用叠前时间偏移处理后的剖面地质结构清晰、断点位置准确，目的层的分辨率比原来提高了5～10HZ左右。

After processing , the sections on which 3-D Prestack time migration processing technique is adopted have the following merits : clear geologic structure , accurate breakpoint position , high resolution of the goal layers ( improved 5-10HZ ) .

珠江组二段炭质（含煤）泥岩裂缝发育段和珠海组&恩平组致密砂泥岩（埋深3500～4700m）裂缝发育段是值得重视的勘探目的层。

The fracture developed intervals of carbargillite in member 2 of Zhujiang formation and tight sandy mudstone ( buried depth of 3500-4700m ) in Zhuhai-Enping formations are considered as potential exploration targets .

由于该区石炭系目的层埋深大（超过3500m），特别是上覆二叠系巨厚盐丘造成速度横向、纵向剧烈变化，从而导致石炭系构造畸变。

Since the deep depth of Carboniferous targets in the region ( deeper than 3500m ), especially the rapidly changed velocity in both lateral and vertical direction resulted from significant thickness of overlying Permian salt dome leads to imaging distortion of Carboniferous structures .

为了查明埋深仅有580米的下白垩系目的层，则希望得好0.3秒的反射波，保护50Hz的有效波高频成分，分辨40米厚、300米长的地质体。

In order to ascertain the lower Cretaceous reservoir bed at the depth of 580m , we must get clear reflection at 0.3 seconds , keep 50 Hz high frequency content , and have the ability to distinguish a geologic body whose thickness is 40 m , and length 300 m.

若该井在目的层系取得突破，需对小干湖构造（YQ8）进行特殊处理，利用各种地震属性技术，描述东河砂岩厚度、展布及储层特征。

If the wells in the target layer is a breakthrough on the small dry lake to be constructed ( YQ8 ) for special treatment , using a variety of seismic attribute technology , describes the Sandstone thickness , distribution and reservoir characteristics .

1991年以来，该方法在珠江口盆地的实际应用中取得了较好的效果：为H3-NE井和H4-1井主要目的层的含油气性作出了正确的预测，对生物礁的鉴别也有其独到之处。

Fairly good results have been obtained in application of this method in the Pearl River Mouth Basin since 1991 , hydrocarbons in the major target zones in the wells H3-NE and H4-1 are correctly predicted . It also has a unique application in recognizing carbonate reefs .

目的层预约的模糊神经网络电梯群控策略

Elevator Group-Control Policy with Destination Registration Based on Fuzzy Neural Network

基于目的层预约的电梯群控系统建模与控制

Modeling and Control in Elevator Group Control System with Destination Registration

接奴群是该区最有潜力的油气勘探目的层。

The Jienu Group has great potential for oil and gas .

下第三系含水层不能作为供水的主要目的层，但能提供高温热水，可作为供热热源。

But Eogene aquifer cannot be taken as the main objective formation .

同时对研究区目的层的岩相特征进行了分析。

At the same times , studied the characteristics of the lithofacies .

建立了梁家&五星构造带目的层的沉积相模式。

Established sedimentary facies patterns in the purpose layer of Liangjia-Wuxing belt .

基于目的层引导的电梯群优化调度方法的研究

Study on Optimized Dispatching Algorithm of Elevator Group with Destination Floor Guidance

主要勘探目的层是第三系的沙河街组地层。

The main exploration target is the Tertiary Shahejie Group .