地震地质 ›› 2022, Vol. 44 ›› Issue (4): 1071-1085.DOI: 10.3969/j.issn.0253-4967.2022.04.016

• 研究论文 • 上一篇    

城市隐伏活动断层避让典型案例分析--以新沂市郯庐断裂带沿线某场地为例

曹筠1,2)(), 李彦宝2), 冉勇康2), 徐锡伟3), 马董伟4), 张志强4)   

  1. 1)河北省地震局, 石家庄 050021
    2)中国地震局地质研究所, 地震动力学国家重点实验室, 北京 100029
    3)应急管理部国家自然灾害防治研究院, 北京 100085
    4)上海申丰地质新技术应用研究所有限公司, 上海 201411
  • 收稿日期:2021-08-24 修回日期:2021-10-22 出版日期:2022-08-20 发布日期:2022-09-23
  • 作者简介:曹筠, 男, 1982年生, 2015年于中国地质大学(北京)获构造地质学专业博士学位, 高级工程师, 主要从事活动构造与地震研究, 电话: 0311-85815950, E-mail: cjconan82@163.com
  • 基金资助:
    河北省自然科学基金(D2021305003);中国地震局地震科技星火计划项目(XH200303Y);河北省重点研发计划项目(20375404D);河北省地震科技星火计划重点项目(DZ20180317008);河北省地震科技星火计划重点项目(DZ2022060600011);河北省地震局创新团队项目(DZ202109080114)

TYPICAL CASE ANALYSIS ON SETBACK DISTANCE FOR URBAN BURIED ACTIVE FAULT: AN EXAMPLE SITE ALONG THE TANLU FAULT ZONE IN XINYI CITY

CAO Jun1,2)(), LI Yan-bao2), RAN Yong-kang2), XU Xi-wei3), MA Dong-wei4), ZHANG Zhi-qiang4)   

  1. 1) Hebei Earthquake Agency, Shijiazhuang 050021, China
    2) State Key Laboratory of Earthquake Dynamics, Institute of Geology, China Earthquake Administration, Beijing 100029, China
    3) National Institute of Natural Hazards, Ministry of Emergency Management of China, Beijing 100085, China
    4) Shanghai Shenfeng Institute of Novel Geological Techniques Co., Ltd., Shanghai 201411, China
  • Received:2021-08-24 Revised:2021-10-22 Online:2022-08-20 Published:2022-09-23

摘要:

随着城市化进程的加快, 如何减小城市隐伏活动断层所引发的地震及其链生灾害的损失, 是未来城市公共安全体系建设所必须面对的议题。文中以新沂市郯庐断裂带安丘-莒县断裂沿线某场地为试验区, 在城市活动断层项目目标区1︰1万条带状活动断层分布图成果的基础之上, 借鉴即将颁布的国标《活动断裂避让距离》中对隐伏断层精确定位的技术要求, 实施了间距不大于50m的浅层地震勘探测线和典型钻孔联合地质剖面探测, 获得了场地内隐伏活动断层的地表迹线、 断层倾向以及上断点埋深等信息。精确定位活动断层的平面位置与1︰1万条带状分布图平面距离差异约为200m, 探测结果精准确定了场地内活动断层的平面展布, 满足场地开发所需的精度。基于精确定位的活动断层地表迹线, 遵照即将颁布的国标《活动断层避让距离》的相关规则, 既科学确定场地内活动断层的避让距离, 又释放了城市紧缺土地资源, 达到既科学避让潜在危险的城市隐伏活动断层, 又充分利用土地的目的。

关键词: 隐伏活动断层, 断层定位, 活动断层避让, 安丘-莒县断裂

Abstract:

With the acceleration of urbanization process, solving the earthquake and its associated disasters caused by buried active fault in urban areas has been a difficult issue in the construction of urban public security system. It is difficult to deal with the anti-seismic issues of cross-fault buildings using the existing techniques, therefore, reasonable setback distance for buried active fault in urban area is the only method for the planning and construction at the beginning. At present, theoretical research about setback for active fault is becoming more and more mature, and the mandatory national standard “Setback distance for active fault” will be enacted soon. As a result, how to work on the basis of these theories and national standards is in urgent. In recent years, the exploration of urban active faults was successively completed. However, there are no typical cases of how to make full use of the achievements of urban active fault projects in the follow-up work, and how to guide urban construction based on the project conclusions, so as to ensure urban safety and rational development of urban economy.

In this paper, taking a site along the Anqiu-Juxian Fault in the Tanlu fault zone in Xinyi city as an example, based on the results of 1︰10 000 active fault distribution map, and referring to the stipulation of national standard “Setback distance for active fault”, 12 shallow seismic survey lines with a spacing of less than 50m were laid out firstly, and the results of shallow seismic exploration show the existence of two high-dip faults in the site. Secondly, considering the shallow seismic survey results and the geologic site conditions, five rows of borehole joint profiles were selected along five of the shallow seismic survey lines. Based on the location of the faults and stratigraphy in the site revealed by the borehole joint profiles, and considering the latest research results of Quaternary stratigraphy and the conclusion of urban active faults detection, the west branch fault is constrained to be a Holocene active fault and the east branch fault is an early Quaternary fault. As a result, we precisely mapped the trace, dip and upper breakpoint of the fault in the site based on the shallow seismic exploration and joint borehole profile. The accurate positioning of the plane position of the active fault differs by about 200m from the 1:1000 strip distribution map.

According to the relevant national standards and scientific research results, active faults in the site shall be avoided. Based on the surface traces of active faults revealed by the accurate detection in the site, the active fault deformation zone was delineated, and the range of setback distance for active fault was defined outside the deformation zone. The detection results accurately determined the plane distribution of the active fault in the site, which meets the accuracy of the development and utilization of the site. Based on the accurately located active fault trace, and complying with the forthcoming national standard “Setback distance from active fault”, this study not only scientifically determines the setback distance for active fault in the site, but also releases the scarce land resources in the city. This result achieves the goal of scientifically avoiding potential dangerous urban hidden active fault and making full use of land.

The case detection process confirms that the results of urban active fault detection are still difficult to meet the fault positioning accuracy required for specific site development, and the range of active fault deformation zone within the site must be determined based on the precise positioning method for hidden active faults as stipulated in the national standard “Setback distance for active fault”. The national standard “Code for seismic design of buildings” only specifies the setback distance for active faults under different seismic intensity, but does not provide any clear definition of the accuracy of active fault positioning, so it is difficult to define the required active fault positioning degree and boundary range of the deformation zone of active fault in practice. The national standard “Setback distance for active fault” clearly defines various types of active fault detection and positioning methods, determines the scope of active fault deformation zone and the accurate setback distance for active fault in different cases. The specific case proves that before developing and utilizing specific sites along urban concealed active faults, relevant work shall be carried out according to the national standard “Setback distance for active fault” to effectively resolve the issue about the relations between urban development and urban safety, so the promulgation and implementation of national standard should speed up.

Key words: buried active fault, fault location, setback distance for active fault, Anqiu-Juxian Fault

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