预测气候变化对孔隙水压力的影响,以便设计和评估粘土土方工程

IF 1.3 4区 工程技术 Q3 ENGINEERING, GEOLOGICAL Quarterly Journal of Engineering Geology and Hydrogeology Pub Date : 2023-11-10 DOI:10.1144/qjegh2023-015
Wengui Huang, Fleur A. Loveridge, Kevin M. Briggs, Joel A. Smethurst, Nader Saffari, Fiona Thomson
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引用次数: 1

摘要

了解和减轻气候变化对建筑环境的影响在世界范围内变得越来越重要。支持公路和铁路运输网的土方工程(路堤和路堑)经常与大气直接接触,因此受到极端天气事件和季节性天气模式的影响。大气的湿润和干燥会改变土方工程内部的孔隙水压力,可能会导致土方工程斜坡的变形和破坏。因此,有必要了解气候变化对土方斜坡内工务站的影响,以便为其设计、评估和维护策略提供信息。对伦敦地区典型的铁路路堤进行了广泛的一维渗流分析。分析表明,预测的更热、更干燥的夏季将增加土方工程的储水量。这将导致冬季月份的净入渗增加,因为预测降雨量会增加,并且需要更长的时间使土壤孔隙饱和并使地下水位恢复到斜坡表面。因此,尽管预测冬季降雨量会增加,但这不会导致更高的设计PWP制度。分析是针对伦敦地区进行的,但这种方法和概念框架可以很容易地适用于其他地区。专题合集:本文是工程地质和水文地质中的气候变化和复原力合集的一部分,可在https://www.lyellcollection.org/topic/collections/Climate-change-and-resilience-in-engineering-geology-and-hydrogeology上找到
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Forecast climate change impact on pore-water pressure regimes for the design and assessment of clay earthworks
Understanding and mitigating the impact of climate change on the built environment is becoming increasingly important worldwide. Earthworks (embankments and cuttings) supporting road and rail transportation networks often have direct contact with the atmosphere and are therefore influenced by extreme weather events and seasonal weather patterns. Atmospheric wetting and drying alters porewater pressures (PWPs) within earthworks, potentially contributing to the deformation and failure of earthwork slopes. Consequently, it is essential to understand the influence of climate change on PWPs within earthwork slopes, to inform strategies for their design, assessment and maintenance. Extensive 1D seepage analyses were carried out for typical railway embankments in the London area. The analyses showed that forecast hotter, drier summers will increase the water storage capacity of earthworks. This will lead to increased net infiltration in the winter months owing to both a forecast increase in rainfall and a longer time being required to saturate the soil pores and bring the water table back to the slope surface. Hence, despite the forecast increase in winter rainfall, this will not lead to higher design PWP regimes. The analyses were conducted for the London area, but this approach and conceptual framework can be readily adapted for other locations. Thematic collection: This article is part of the Climate change and resilience in Engineering Geology and Hydrogeology collection available at: https://www.lyellcollection.org/topic/collections/Climate-change-and-resilience-in-engineering-geology-and-hydrogeology
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来源期刊
CiteScore
3.40
自引率
14.30%
发文量
66
审稿时长
6 months
期刊介绍: Quarterly Journal of Engineering Geology and Hydrogeology is owned by the Geological Society of London and published by the Geological Society Publishing House. Quarterly Journal of Engineering Geology & Hydrogeology (QJEGH) is an established peer reviewed international journal featuring papers on geology as applied to civil engineering mining practice and water resources. Papers are invited from, and about, all areas of the world on engineering geology and hydrogeology topics. This includes but is not limited to: applied geophysics, engineering geomorphology, environmental geology, hydrogeology, groundwater quality, ground source heat, contaminated land, waste management, land use planning, geotechnics, rock mechanics, geomaterials and geological hazards. The journal publishes the prestigious Glossop and Ineson lectures, research papers, case studies, review articles, technical notes, photographic features, thematic sets, discussion papers, editorial opinion and book reviews.
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