该技术工艺由北京地质大学研制,已通过省级鉴定。
This technical craft develops by the Beijing geology university, already through provincial level appraisal.
文章根据北京地质环境状况,介绍浅埋暗挖施工坍塌的预防及处理措施。
According to the geologic environment of Beijing, the paper introduces the prevention and treatment measures for collapses in mining excavation of shallow tunnels.
北京地质研究所。北京市地形地质图(1:10万)。北京:地质出版社,1975。
Beijing Institute of Geology. Beijing Geological and Geographical Map (1:100000). Beijing: Geology Publishing House, 1975.
本文研究了北京及其邻近地区的地质,地貌,地球物理等特征并对有关特征进行了模式识别。
Various features of geology, geomorphology and geophysics in Beijing and its vicinity were studied. Pattern recognition was used to analyze these features.
文章特为庆祝北京矿产地质研究院成立50周年而作。
This paper was written for the 50 years anniversary celebration of Beijing Institute of Geology for Mineral Resources.
通过对北京市永定河流域气候、地质条件及人为活动的调查,分析了永定河流域风沙化土地的成因。
Through the investigation on climate, geological condition and human activity of Yongding River Basin, the origin of wind-sandy land in Yongding River Basin was analyzed.
介绍了北京创世纪大厦工程的场区工程地质条件、基坑边坡支护设计和支护施工工艺。
The engineering geological condition, pit support design and its construction process in Beijing Century Building Project are mainly introduced in this article.
文中研究了北京及其周围地区的历史地震和地震地质资料,并在此基础上估计了基岩运动的参数。
The historical earthquakes and seismotectonic data of Beijing and surrounding areas are described based on which parameters of input excitations of the basement rocks have been evaluated.
王战,孟庆任,解建民。1999。黄骅坳陷地区地质构造演化和油气分布。北京:科学出版社,115。
Wang Zhan, Meng Qingren and Jie Jianmin. 1999. Geology structural evolution and distribution of oil and gas in Huanghua depression. Beijing: Science press, 115.
李云峰。黄土渗透性与孔隙性研究。北京:地质出版社,1994。
Li Yunfeng. A study on penetrability and porosity of loess. Beijing: Geological Publishing House, 1994.
北京北部山区的泥石流是降水、地貌、地质构造与固体堆积物及人类活动等因素长期共同作用的结果。
The factors caused debris flow in Northern Mountain of Beijing in 1991 were the precipitation, geomorphology, geologic structure, solid accumulation and the human activity.
北京遥测地震台网在与美国地质调查局的合作项目中,从1983年以来正式运行了一套由美方提供的地震实时监测处理系统。
The Beijing Telemetering Seismic Network has used an earthquake real time pro-cess system provided by the USGS in cooperation with China since 1983.
在掌握了相似材料性质影响因素及其规律的基础上,本文针对北京典型地质和典型隧道断面进行平面模型试验。
On the basis of grasping the effect factors and laws of similar material, we carry out a plane model experiment of typical geologic strata and tunnel scale of Beijing.
[姚檀栋。青藏高原中部冰冻圈动态特征[M]。北京:地质出版社,2002。]。
Yao Tandong. The Dynamic Feature in Middle of the Qinghai-Xizang Plateau [M]. Beijing: Geology Press, 2002.
郭华东等,新疆北部地质矿产遥感,科学出版社,北京,1995年。
Guo Huadong, L. Zheng (ed. ) "Microwave Remote Sensing for Earth Observation", Science Press, 1995, Beijing.
考虑到不至于由于地下水位下降而引发各种环境地质问题,北京主要地下水供水源地今后应至少降低2000 年开采量的30%进行地下水开采。
By thinking of the geo-environment problems caused by the decrease of water level, inthe future the extraction rate of groundwater source plants should be reduced by at least30% of the rate in 2000.
北京市平原区地质灾害主要表现为活动断裂、地震砂土液化和地面沉降。
Typical geological hazards in Beijing plain included active fault, seismic liquefaction of sand and land subsidence.
中国地质大学(北京)地球科学与资源学院;
School of Resource and Information Technology, China University of Petroleum(Beijing), Beijing 102249, China2.
[汪文先,李荣健。罗布泊及其邻近地区水文地质概况。见:中国科学院新疆分院罗布泊综合科学考察队,罗布泊科学考察与研究。北京:科学出版社,1987.28-36。]。
Wang Wenxian, Li Jianrong. The hydro-geology of the Lop-Nur Lake and its adjacent area. In:Scientific Investigation and Study of Lop-Nur Region. Beijing:Science Press, 1987.28-36.
以北京市房山区史家营煤矿为研究对象建立了矿山地质灾害高分辨率遥感监测方法与技术流程。
Shijiaying Mine in Fangshan, Beijing was taken as an example, and the high resolution remote sensing monitor method and technical procedures were established.
以北京市房山区史家营煤矿为研究对象建立了矿山地质灾害高分辨率遥感监测方法与技术流程。
Shijiaying Mine in Fangshan, Beijing was taken as an example, and the high resolution remote sensing monitor method and technical procedures were established.
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