AUV矢量推进水动力计算及水平回转操纵性试验     

李雨田  雷敏  冯朝  韩用波 《数字海洋与水下攻防》2020,3(4):288-294

针对矢量推进模式下的 AUV 水动力性能和操纵性能，开展了 AUV 矢量推进水动力 CFD 计算， 对矢量推进水平回转操纵性进行了评估，加工了矢量推进样机，并进行湖上操纵性验证。理论计算和试验数据表明：矢量推进具备极高的低速操纵性，该研究为矢量推进在 AUV 上的应用提供了理论和技术基础。  相似文献   

LATE QUATERNARY ACTIVITY OF THE SOUTHEASTERN SECTION OF ZHONGDIAN-DAJU FAULT          下载免费PDF全文

LI Guang-tao  SU Gang  CHENG Li  LI Feng  WU Hao 《地震地质》2019,41(3):545-560

The southeast section of Zhongdian-Daju Fault is located in the northern part of Haba and Yulong Snow Mountain, belonging to the southwestern boundary of the secondary block in northwestern Sichuan, an important boundary fault striking 310°~320° on the whole. The nature of the fault, the age of its activity and the slip rate are of great significance for the analysis of the secondary block movement in the northwestern Sichuan and the intersection relationship with the eastern piedmont fault of Yulong Mountains. Based on the 1 ︰ 5 million-scale active fault geological mapping, this paper studies in detail the stratigraphic landform, scarp landform, surface rupture, typical fault profile and river terrace along the fault. Based on the research results, we divide the southeastern section of Zhongdian-Daju Fault into two sub-segments, the Majiacun-Daju sub-segment and the Daju-Dadong sub-segment, according to the geometric structure, fault landforms and fault activity. (1)Fault scarp:In the Majiacun-Daju sub-segment, the fault parallelly controls the two sides of the Haba fault depression. It cuts the late Pleistocene moraine deposits, forming a fault scarp of about 4.5km long and(14±2)m high. The continuity of the scarp is very good, and it is also very obvious in the remote sensing image. In the Daju-Dadong sub-segment, a scarp with a height of about 2m is formed, and an optical luminescence dating sample is collected from the upper part of the gravel layer on the second-order terrace to obtain an age of(22±2.2)ka. (2)Horizontal dislocation:In the Majiacun-Daju sub-segment, through the analysis of the development of outwash fans in the area and the measurement and induction of the gully dislocations, it is considered that there are at least three stages of outwash fans developed in the area and there may be four phases of faulting. That is, the earliest-stage outwash fan and gully are horizontally dislocated about 1km; the second-stage outwash fan and gully are horizontally dislocated about 47m, and the vertical dislocation is about(14±2)m; the gully in the third stage outwash fan is horizontally dislocated twice, the first dislocation formed a beheaded gully with a dislocation of 22m, and the second formed a beheaded gully with a dislocation of 8.5m. It is further proved that the fault has strong activity since the Holocene in the Majiacun to Daju area. In the Daju-Dadong sub-segment, there are no obvious horizontal dislocations in the alluvial deposits since the Holocene. Only 3~4 gullies are found to be offset right-laterally in the ridges east of Wenhe Village, with the maximum dislocation of 210m, which may be the older phase dislocation. (3)Surface rupture:In the northwest direction of Dabazi Village on the T3 terrace in the basin between Majiacun and Daju, an earthquake surface rupture zone is found, extending in the NW direction. The rupture zone left clear traces on the about 1m-thick, hard T₃ terrace surface formed by calcification of sand gravels, and the overburden either upwarps and bulges, or ruptures, generates ground fissures, or forms small pull-apart "depressions" locally. However, the rupture zone is not large in size, about 350m long, 60m wide at the widest point, and 0.3~1.5m high. It is partially en-echelon or obliquely arranged, dominated by compressive ruptures. Through observation, the possibility of artificial transformation is ruled out for these upwarping bulges, ruptures or ground fissures. The fault section is found in the southeast direction of the rupture zone. The slickensides at the section show that the fault is dominated by right-lateral strike-slip with a small amount of thrust. In the eastern sub-segment, only intermittently distributed surface ruptures are found in the northern part of the village, and the scale is small. In summary, through the field geological survey, it is found that the Majiacun-Daju sub-segment is a Holocene active segment. Though the Daju-Dadong sub-segment also offset the late Pleistocene to Holocene strata, it is considered that its Holocene activity is weak in terms of either the dislocation amount or the slip rate of this segment. By analyzing the geological and geomorphological evidences, such as fault scarps, horizontal dislocation and surface ruptures along the fault, it is considered that the Majiacun-Daju sub-segment is a right-lateral strike-slip fault with a normal faulting component, and its vertical slip rate since the late Pleistocene is(0.4~0.8)mm/a, the horizontal slip rate is 1.5~2.4mm/a. The Daju-Dadong sub-segment is dominated by right-lateral strike-slip with a normal faulting component, and its vertical slip rate since the late Late Cenozoic is 0.1mm/a. The formation of the NW-trending surface rupture zone found in the Daju Basin is very young, where there are only two major earthquakes, namely, the M_S6.4 1966 Zhongdian earthquake and the 1996 Lijiang M_S7.0 earthquake, and both earthquakes produced NW-oriented surface rupture zones. Therefore, it cannot be ruled out that the rupture zone is a product of the 1966 Zhongdian M_S6.4 earthquake or the 1996 Lijiang M_S7.0 earthquake.  相似文献   

APPLYING 3D INVERSION OF SINGLE-PROFILE MAGNETOTELLURIC DATA TO IDENTIFY THE SHADE AND YUNONGXI FAULTS          下载免费PDF全文

JIANG Feng  CHEN Xiao-bin  DONG Ze-yi  CUI Teng-fa  LIU Zhong-yin  WANG Pei-jie 《地震地质》2019,41(6):1444-1463

Many synthetic model studies suggested that the best way to obtain good 3D interpretation results is to distribute the MT sites at a 2D grid array with regular site spacing over the target area. However, MT 3D inversion was very difficult about 10 years ago. A lot of MT data were collected along one profile and then interpreted with 2D inversion. How to apply the state-of-the-art 3D inversion technique to interpret the accumulated mass MT profiles data is an important topic. Some studies on 3D inversion of measured MT profile data suggested that 2D inversions usually had higher resolution for the subsurface than 3D inversions. Meanwhile, they often made their interpretation based on 2D inversion results, and 3D inversion results were only used to evaluate whether the overall resistivity structures were correct. Some researchers thought that 3D inversions could not resolute the local structure well, while 2D inversion results could agree with the surface geologic features much well and interpret the geologic structures easily. But in the present paper, we find that the result of 3D inversion is better than that of 2D inversion in identifying the location of the two local faults, the Shade Fault(SDF)and the Yunongxi Fault(YNXF), and the deep structures. In this paper, we first studied the electrical structure of SDF and YNXF based on a measured magnetotelluric(MT) profile data. Besides, from the point of identifying active faults, we compared the capacity of identifying deep existing faults between 2D inversion models and 3D models with different inversion parameters. The results show that both 2D and 3D inversion of the single-profile data could obtain reasonable and reliable electrical structures on a regional scale. Combining 2D and 3D models, and according to our present data, we find that both SDF and YNXF probably have cut completely the high resistivity layer in the upper crust and extended to the high conductivity layer in the middle crust. In terms of the deep geometry of the faults, at the profile's location, the SDF dips nearly vertically or dips southeast with high dip angle, and the YNXF dips southeast at depth. In addition, according to the results from our measured MT profile, we find that the 3D inversion of single-profile MT data has the capacity of identifying the location and deep geometry of local faults under present computing ability. Finally, this research suggests that appropriate cell size and reasonable smoothing parameters are important factors for the 3D inversion of single-profile MT data, more specifically, too coarse meshes or too large smoothing parameters on horizontal direction of 3D inversion may result in low resolution of 3D inversions that cannot identify the structure of faults. While, for vertical mesh size and data error thresholds, they have limited effect on identifying shallow tectonics as long as their changes are within a reasonable range. 3D inversion results also indicate that, to some extent, adding tippers to the 3D inversion of a MT profile can improve the model's constraint on the deep geometry of the outcropped faults.  相似文献   

PALEO-EARTHQUAKE STUDY METHODS ON BEDROCK FAULT SURFACE—HISTORY,CURRENT SITUATION,SUGGESTIONS AND PROSPECTS          下载免费PDF全文

ZOU Jun-jie  HE Hong-lin  YOKOYAMA Yosuke  WEI Zhan-yu  SHI Feng  HAO Hai-jian  ZHUANG Qi-tian  SUN Wen  ZHOU Chao  SHIRAHAMA Yoshiki 《地震地质》2019,41(6):1539-1562

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郯庐断裂带新沂—泗洪段土壤气Rn体积活度和CO2浓度特征研究     

缪阿丽  张扬  方震  李锋  王维  高力 《地震》2019,39(1):48-57

郯庐断裂带江苏段地区4个剖面进行了土壤气Rn体积活度和CO₂浓度测量结果显示, 自北向南土壤气Rn体积活度均值分别为22.9 kBq/m³、 35.5 kBq/m³、 40.2 kBq/m³、 26.6 kBq/m³; 自北向南土壤气CO₂浓度均值分别为0.669%、 0.400%、 0.503%、 1.109%。 土壤气Rn体积活度和CO₂的浓度在空间分布上具有较好的一致性, 这可能与CO₂是Rn的载气有关。 综合分析土壤气Rn和CO₂测量结果以及水准资料可得, 2017年土壤气Rn高值出现在晓店段可能与区域应力应变调整有关。 本研究不仅为研究区以后的土壤气研究提供了参考, 同时也可为研究区的构造活动研究提供地球化学资料参考。  相似文献   

华北克拉通西部块体北缘及邻区地壳厚度与泊松比分布特征     

杨彦明  陈婧  熊峰  张云  马援  贾昕晔  贾彦杰 《地震》2019,39(2):97-109

收集了2010—2011年华北克拉通西部块体北缘及邻区布设的36个流动地震台和2009—2016年内蒙古自治区数字地震台网17个宽频带固定地震台站的远震事件波形数据, 采用接收函数H-κ算法分析获得了53个基岩台站下方的地壳厚度和泊松比结果。 此外, 结合已有的81个台站的研究成果, 给出华北克拉通西部块体北缘及邻区地壳厚度与泊松比分布特征。 综合分析认为, 研究区地壳厚度在整体上呈现自东向西渐变的特征, 最厚的地方出现在华北克拉通西端的阿拉善地块(～48.7±3.0 km)。 研究区平均泊松比为0.27, 泊松比高值异常出现在河套断陷带, 意味着可能具有较高的地壳温度或者存在壳内部分熔融。 研究区内不同构造单元呈现出显著的地壳厚度和泊松比分布特征的差异性, 意味着在华北克拉通构造演化过程中, 不同地区经历了不同的地壳改造过程。  相似文献   

2015年四川乐山金口河M5.0地震孕震构造条件分析     

宫悦  龙锋  梁明剑  易桂喜  王宇玺  格桑扎西 《中国地震》2019,35(3):445-454

2015年1月14日乐山金口河M5.0地震发生在历史地震强度较低的川南山区与四川盆地交界一带。基于四川区域地震台网的震相报告与波形资料，采用双差定位法对地震序列进行重新定位，同时，采用CAP波形反演方法及HASH方法反演了主震及序列中8次M_L≥2.0地震的震源机制解。另外，利用Coulomb3计算了主震发生后库仑应力改变量，得到的结果如下：①重新定位结果显示，金口河M5.0地震位于（103.18°E，29.32°N），震源深度16.6km，略深于波形反演结果（12km）。序列分布在NNW向天全-荥经断裂和NE向西河-美姑断裂的交汇部位，余震序列在空间上呈NE向展布。②M5.0主震的机制解为节面Ⅰ：走向350°/倾角46°/滑动角107°，节面Ⅱ：走向146°/倾角47°/滑动角73°，表现为走向NW（NNW）、中等倾角的逆冲型运动方式。序列中其余8次M_L≥2.0余震大多以走向NE的逆冲型地震为主，个别为走滑或正断层类型。主震和大部分余震的节面方向不一致，主震节面方向与余震长轴方向也不一致。③主震后库仑应力改变量显示，余震主要发生在主震引起的库仑破裂应力增加的区域。综合分析推测，NNW向天全-荥经断裂为本次地震主震的发震构造，倾向NE的机制解节面Ⅰ指出了该断裂的几何产状；M5.0主震发生后，立即触发了其旁侧的NE向西河-美姑断裂，并激发了多次余震。  相似文献   

京西北地区地应变观测与小震震源机制解一致性研究     

茅远哲  曹筠  高晨  冯向东  王晓山 《中国地震》2019,35(4):709-717

以京西北地区作为研究区域，采用应变参数方法解算定点地应变观测数据，将所得应变参数时间序列作为研究对象，利用该结果与研究区内同期小震震源机制解进行一致性分析，研究得出呈拉张性质的定点观测最大主应变方位与震源机制解最大拉张变形方向（T轴）水平投影具有良好的对应性，整体以NNW—NE向为主，且自西向东排布的测点最大主应变方位与震源机制解最大拉张变形方向均表现为逐渐东向偏移的趋势，与华北平原块体北部发生顺时针旋转活动的特征相吻合，结果进一步检验了地应变观测反映区域应变场信息的能力。  相似文献   

内蒙古中部地区形变主要干扰的时频响应特征分析     

张小艳  熊峰  王旭东  赵星  刘永梅  刘芳 《中国地震》2019,35(4):718-725

选取内蒙古中部地区定点形变观测中受降雨、大风、气压干扰以及地震波影响的典型数据，采用S变换，对该地区形变观测中4种主要干扰信号的时频响应特征进行分析与讨论。结果表明，降雨干扰信号主要集中在低频区域，其频率先增大后减小；大风干扰表现为高频干扰，时频域能量强度与观测曲线受风扰影响变化幅度成正比；气压干扰信号的优势频率分布在低频段内；地震波影响中VP垂直摆和JCZ地震计记录的地震波较为相似，但VP垂直摆记录的频段要小于JCZ地震计，VP垂直摆主要记录的是低频地震波。同时，4种干扰信号的时频域频率、能量强度随时间变化趋势与数据观测时域变化趋势相一致。  相似文献   

首都圈东部地区震群序列性质判定   总被引：1，自引：1，他引：0  

岳晓媛  武安绪  冯刚  马梁 《地震地磁观测与研究》2019,40(4):8-15

采用传统方法和数字地震学方法（视应力），对首都圈东部地区2009-2017年发生的震群序列性质进行分析，分析结果表明：①使用传统方法不能确定震群序列性质，可以利用视应力方法进一步分析，该方法能够反映每个震群应力场的变化特征，可以进行异常性质判别；②通过2种方法的对比分析，可以提高震群序列异常性质判定结果的科学性和可信度，为后续地震活动趋势提供有力的参考依据。对2种方法进行震例检验，可知后续地震一般为中等以上地震，在震群（具有异常性质）发生1-7个月后发震，发震位置在震源区附近。  相似文献