1) Land 3d seismic acquisition
窄线三维地震
2) 3D seismic prospecting
三维地震
1.
Contrast 3D seismic prospecting interpreted results and mining block practical revealed geological anomalies have found rather poor effects of early stage conventional interpretation technological means under complex seismic-geologic conditions are hard to meet requireme.
寺河矿为一个千万吨级特大型现代化矿井,截止2006年底,矿井三维地震勘探面积已达51km2,目前采掘范围为二盘区和三盘区,面积分别为6。
2.
Rely on the "Western China Coal Resource High Precision 3D Seismic Prospecting Technology" project engineering,carried out high density 3D seismic prospecting aim to improve minor fault,small subsided column exploration ability.
依托"西部煤炭资源高精度三维地震勘探技术"工程,对晋城矿区进行了旨在提高小断层,小陷落柱探测能力的高密度三维地震勘探。
3.
To overcome existing puzzles in 3D seismic prospecting such as geophone layout,geophone coupling,shotpoint selection etc.
勘探区内地形地质条件复杂,河流及河漫滩面积大,为克服三维地震勘探存在的诸如检波线的铺设、检波器藕合、激发层位选择等难题,主要采取了陆上检波器挖坑埋置(黄土地段坑深20cm,沙滩地段坑深40cm)、水上检波器用木桩固定等措施,并采用陆上井中放炮、砾石层坑炮、河水中水下放炮相结合的激发方式。
3) 3D seismic exploration
三维地震
1.
According to the example of 3D seismic exploration for coal mineral in Jiahe,Xuzhou area,discusses the difficulties to execute 3D seismic exploration and the techniques to solve these problems under the condition of deeply-mining.
以徐州夹河煤矿三维地震勘探为例,讨论了在煤层埋藏较深条件下实施三维地震勘探的难点及对策。
2.
The seismic information of“blank area”have been gotten, and some experience in the 3D seismic exploration under the similar condition have been gained using this method.
该方法适应了这种复杂的地表条件 ,获得了“空白区”的地震资料 ,为今后类似地表条件地区的三维地震勘探提供了经验。
3.
In view of such phenomena as complex surface conditions,shallow target formation depths and overlying Gobi and hills encountered by 3D seismic exploration in a certain coal mine of Tacheng area,Xinjiang,this paper deals with some corresponding technical measures and their geological effects at different stages of field data collection,data processing and data interpretation.
针对新疆塔城地区某煤矿三维地震勘探区戈壁地表复杂、目的层埋藏浅等地质条件,阐述了在野外数据采集、室内资料处理及资料解释的不同阶段所采用的相应技术措施和取得的地质效果。
4) 3-D seismic
三维地震
1.
Approach of suppressing acquisition footprint of 3-D seismic data;
压制三维地震数据采集脚印的方法研究
2.
3-D seismic acquisition design in areas of anisotropy and complex structure.;
各向异性及复杂构造条件下三维地震采集设计
3.
Data processing joining several 3-D seismic surveying blocks together in Shengli Oilfield.;
胜利油田三维地震数据连片处理
5) D seismic
三维地震
1.
The Prospective Application of the 3D Seismic Dechnology to Development in WeiCheng Oilfield;
三维地震技术在卫城油田开发中的应用前景
2.
The current methods of 3D seismic data interpretation are based on 2D seismic data interpretation methods.
目前的三维地震资料解释方法仍停留在二维解释的基础上。
3.
Since the dry and thick loess overburden has loose structure and without groundwater level,so it has strong absorptivity to seismic waves and very hard to carry out 3D seismic prospecting,especially in hilly ground shallow buried coal areas.
干厚黄土覆盖地区表浅层黄土结构疏松、无潜水位,对地震波吸收强烈,难以开展三维地震勘探,特别是在煤层埋深浅的干厚黄土覆盖丘陵地区。
6) 3D seismic
三维地震
1.
3D seismic processing for subsidence column detection applied in Dongpang coal mine;
东庞矿突水陷落柱三维地震处理效果与对比
2.
3D seismic fine explanation on macro-structure of Coal Seam No.3 of Jining No.2 Mine;
济宁二号煤矿3煤层宏观结构三维地震精细解释
3.
Application of Coalfield High Precision 3D seismic prospecting in Qinghai-Tibet Plateau Desert and Gobi Area;
高精度三维地震勘探技术在青藏高原沙漠戈壁区煤田的应用
补充资料:胎圈过窄、子口窄、圈窄等
分子式:
CAS号:
性质:又称胎圈过窄、子口窄、圈窄等。轮胎工业中指两胎圈宽度不一致的现象。
CAS号:
性质:又称胎圈过窄、子口窄、圈窄等。轮胎工业中指两胎圈宽度不一致的现象。
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