FAULT MAPPING BY DATA OF AEROSPACE SURVEYS TO ENSURE THE SAFETY OF MAIN PIPELINES (FOR EXAMPLE OF THE SECTION CHAYVO-DE-KASTRI PIPELINE)

O. Kuptsova, V. Melkiy, A. Verkhoturov, D. Dolgopolov
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Abstract

Link for citation: Kuptsova O.V., Melkiy V.A., Verkhoturov A.A., Dolgopolov D.V. Fault mapping by data of aerospace surveys to ensure the safety of main pipelines (by the example of the section Chayvo–De-Kastri oil pipeline). Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 6, рр.92-102.In Rus. The relevance of the research is caused by the need to identify the hazardous geological processes during the construction and operation of pipelines. The Russian Federation ranks second in the world in terms of the total length of main pipelines, where accidents sometimes occur as result of the negative impact of natural and man-made factors. The main hazardous geological processes affecting pipelines are displacements in zones of active faults in the earth's crust. Diagnostics of the presence of fault zones in the territory planned for the construction of linear structures makes it possible to identify potentially dangerous areas that should be paid close attention, and to organize constant monitoring in places of possible movements of soil masses. Based on economic considerations, it is advisable to conduct research using Earth remote sensing data, and use modern geoinformation products for data processing. Monitoring using remote sensing allows you to quickly assess the changing engineering and geological conditions in the areas where the pipeline is laid, as well as detect signs of the occurrence of natural processes that pose danger to infrastructure facilities. Monitoring of corridors of main pipeline routes must be carried out by all available means during construction and operation. The use of ArcGIS, QGIS and LEFA software in combination with geophysical data provided by the Unified Geophysical Service of the Russian Academy of Sciences makes it possible to assess seismic activity, its intensity and the nature of the relationship with faults. The main aim of the research is to identify and show on the map the most dangerous areas with active fault zones, that pose a potential threat of negative impact on the pipeline during operation. Objects: space images of the corridor of the main pipeline route to identify ruptures of a seismogenic nature, maps of earthquake epicenters previously identified near the pipeline route. Methods: interpretation of satellite images, methods of geoinformation modeling, mapping, statistical methods, methods of automated lineament analysis, methods for changing the resolution, size and visibility of images without loss of information quality, such as interpolation and aggregation methods, spatial analysis of the interdependence of fault zones and earthquakes, compilation of geoinformation. Results. The analysis of geological, geophysical and satellite information about the territory where the pipeline was laid was carried out in order to identify fault zones. Automated lineament analysis of images in different spectral ranges and with different spatial resolution made it possible to identify the most probable fault zones. The seismic activity of the study area was estimated on the basis of geophysical data. Potentially dangerous sections of the study area, along which the main pipeline is laid, are identified and presented on the map, characterized by the presence of fault zones and increased seismic activity.
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利用航空测量数据进行故障映射,以保证主要管道的安全(例如chayvo-de-kastri管道)
引用链接:Kuptsova o.v., Melkiy v.a., Verkhoturov a.a., Dolgopolov D.V.通过航空勘测数据进行故障映射以确保主要管道的安全(以Chayvo-De-Kastri石油管道部分为例)。托木斯克理工大学公报。岩土工程Аssets, 2023,第334卷,第2期。6,рр.92 - 102。俄文。研究的相关性是由于需要识别管道建设和运行过程中的危险地质过程。就主要管道的总长度而言,俄罗斯联邦在世界上排名第二,由于自然和人为因素的消极影响,有时会发生事故。影响管道的主要危险地质过程是地壳活动断层带的位移。在规划建设线性结构的领土上对断层带的存在进行诊断,可以确定应该密切注意的潜在危险地区,并在可能发生土块移动的地方组织持续监测。基于经济考虑,建议利用地球遥感数据进行研究,并使用现代地理信息产品进行数据处理。使用遥感监测可以让您快速评估管道铺设区域不断变化的工程和地质条件,以及检测对基础设施构成危险的自然过程发生的迹象。在施工和运行过程中,必须采取一切可行的手段对管道主干线的走廊进行监测。利用ArcGIS、QGIS和LEFA软件,结合俄罗斯科学院统一地球物理服务提供的地球物理数据,可以评估地震活动、地震强度以及地震与断层关系的性质。研究的主要目的是识别并在地图上显示具有活动断层带的最危险区域,这些区域在运行过程中对管道构成潜在的负面影响。对象:主要管道路线走廊的空间图像,用于识别孕震性质的破裂,管道路线附近先前确定的地震震中地图。方法:卫星图像解译、地理信息建模方法、制图方法、统计方法、自动线形分析方法、在不损失信息质量的情况下改变图像分辨率、大小和可见度的方法,如插值和聚合方法、断裂带与地震相互依存的空间分析、地理信息的编制。结果。为了确定断裂带,对管道铺设区域的地质、地球物理和卫星信息进行了分析。对不同光谱范围和不同空间分辨率的图像进行自动线性分析,可以识别出最可能的断层带。根据地球物理资料估计了研究区的地震活动性。研究区域的潜在危险路段,沿着主要管道铺设,被识别并呈现在地图上,其特征是断层带的存在和地震活动的增加。
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CiteScore
1.40
自引率
50.00%
发文量
210
审稿时长
5 weeks
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