地震地质 ›› 2023, Vol. 45 ›› Issue (2): 455-463.DOI: 10.3969/j.issn.0253-4967.2023.02.009

• 研究论文 • 上一篇    下一篇

活动断层探测综合标准化

黎益仕()   

  1. 中国地震灾害防御中心, 北京 100029
  • 修回日期:2022-10-26 出版日期:2023-04-20 发布日期:2023-05-18
  • 作者简介:黎益仕, 男, 1967年生, 1992年于中国地质大学获应用地球物理专业硕士学位, 高级工程师, 主要从事地震标准化和防震减灾科普教育方面的研究, E-mail: lysh707@qq.com
  • 基金资助:
    国家重点研发计划项目(2019YFC1509400);中国地震局重点项目(2050616030206)

RESEARCH ON COMPREHENSIVE STANDARDIZATION FOR SURVEYING AND PROSPECTING OF ACTIVE FAULT

LI Yi-shi()   

  1. China Earthquake Disaster Prevention Center, Beijing 100029, China
  • Revised:2022-10-26 Online:2023-04-20 Published:2023-05-18

摘要:

活动断层探测是防震减灾的基础性工作。 随着业务工作的不断深入, 标准化工作取得的进展对业务发展起到了重要的支撑作用。目前, 现有标准和新标准的制定进度远远无法满足实际需要。文中将综合标准化运用于活动断层探测, 提出以提升工作质量和应用效益为综合标准化目标, 并将目标细化分解成业务过程、成果产出和推广应用3个方面进行相关要素分析, 系统地梳理出活动断层探测的主要工作环节及其涵盖的工作内容和技术方法, 汇总各工作环节中获得的数据、图件、报告和数据库等成果产出内容, 给出支撑活动断层探测成果应用的主要技术要素。以此为基础, 结合工作实际和已有标准现状, 分业务基础、项目实施、技术方法、成果产出和推广应用5个序列提出了组成标准综合体的41项标准, 并列出标准明细表。活动断层探测标准综合体涵盖了全业务链条所需的标准, 标准间相互衔接协调, 发挥成套标准的整体优势, 将为进一步提升活动断层探测标准化水平、加快标准制、修订进度奠定良好基础, 也将为防震减灾工作其他业务领域的高质量创新规范发展提供有益示范。

关键词: 活动断层探测, 综合标准化, 标准综合体, 相关要素

Abstract:

Active fault surveying and prospecting is the fundamental work for earthquake prevention and disaster reduction. China began to conduct quantitative research on active faults in the 1980s, and then carried out surveying and prospecting of active faults and seismic hazards assessment in several cities. The results provide a scientific basis for urban land planning, urban disaster prevention planning, construction project site selection and fault setbacks, potential seismic hazards investigation, earthquake emergency preparedness, etc.

Standards research in surveying and prospecting of active faults began at the beginning of this century in pace with the development of professional work. Since 2013, the research on the technical system and standards system about surveying and prospecting of active faults was carried out, and a series of standards for technical methods and outcomes were compiled successively. Currently, 1 national standard and 9 sectors standards have been released, and 11 standards are in processing. The national standard GB/T 36072 “Surveying and Prospecting of Active Fault” stipulates the process, content, outcomes, and main technical methods. The 9 sectors standards cover techniques and methods consisting of remote sensing survey, fault geomorphological survey, paleo-seismic trenching, drilling, and fault strip mapping, and stipulate the requirements for the steps, technical indicators, and outcomes of the corresponding technical methods. These standards have become important technical support for active fault survey and prospecting and the main basis for operational supervision.

However, there are still many gaps in the standards, and there are obvious contradictions between the supply and demand of the standards. At the same time, the compiling of standards for surveying and prospecting of active faults scattered in different periods and institutions, leading to the problems of function matching and technical indicators coordination among standards. This paper applies comprehensive standardization to surveying and prospecting of active faults, with the objectives to improve the work quality and the application benefit, by regarding the standardization object as a complete system, decomposing comprehensively the relevant elements in three aspects: business process, outcomes and application, and constructing the standard-complex of surveying and prospecting active faults. This is the first attempt to apply comprehensive standardization to the earthquake industry.

The working process of surveying and prospecting of active faults can be decomposed into six steps: preparation and revision of implementation plan, determination of fault spatial distribution and parameters, identification of fault activity, analysis of the deep seismic-tectonic environment, assessment of seismic hazards of active faults, and determination of fault deformation zone width. The preparation and revision of the implementation plan comprise data collection, controlled detection, preliminary identification of fault activity, and revision of the implementation plan; the determination of fault spatial distribution and parameters include the implementation and on-site investigation of technical methods such as high-resolution remote sensing interpretation, geological and geomorphic investigation, fault geomorphological survey, geophysical exploration, drilling, paleo-seismic trenching, and dating. The relevant elements of the business process mainly include the work content, technical methods, and technical requirements for project implementation of these links, as well as the technical requirements for project implementation plan preparation and outcomes check and acceptance.

The outcomes of surveying and prospecting active faults are divided into survey data, professional outcomes maps, reports, databases, etc. The relevant elements of the outcomes mainly include the technical requirements of the original data and the phased outcomes obtained from the analysis, professional outcomes maps, reports, and databases.

The application of surveying and prospecting of active faults is oriented to meet the needs of disaster reduction, and its outcomes are applied to the practice of earthquake prevention and disaster reduction. Relevant elements of application mainly include technical requirements for fault classification and fault cataloging, three-dimensional modeling, hazard assessment, fault avoidance, data management, and information service system construction.

Based on the analysis of relevant elements of business process, outcomes, and application, combined with the current status of existing standards, the framework structure of five sequences on surveying and prospecting of active faults standard-complex is put forward, namely, business foundation, project implementation, technical method, outcomes, and application, together with a detailed list of 41 standards. Among them there are 8 items of business foundation, 3 items of project implementation, 15 items of technology and methods, 10 items of outcomes, and 5 items of application.

The standard-complex of surveying and prospecting of active faults covers the standards required by the entire business chain, and the standards are interconnected and coordinated. Taking the advantage of the complete set of standards will lay a good foundation for further improving the standardization level of surveying and prospecting of active faults and accelerating the progress of developing standards, and also provide a beneficial demonstration for the high-quality innovative and standardization development of other business areas of earthquake prevention and disaster reduction.

Key words: surveying and prospecting of active fault, comprehensive standardization, standard-complex, related elements

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