Numerical study of the effects of groundwater drawdown on ground settlement for excavation in residual soils

Goh, Alvina; Zhang, R. H.; Wang, W.; Wang, L.; Liu, H. L.; Zhang, W. G.

doi:10.1007/s11440-019-00843-5

Cited by 87 publications

(17 citation statements)

References 36 publications

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“…Research on land subsidence is topical in engineering and environmental research, as its impacts are observed in many countries including China, Iran, Japan, Singapore, Thailand and the USA (Ye et al 2015;Nadiri et al 2018a;Hayashi et al 2009;Phien-wej et al 2006;Zhang et al 2018;Goh et al 2019;Galloway et al 1999). Some engineering impacts of subsidence are outlined by Kihm et al (2007), which include the following: (i) a collapse of water wells and the breakage of their casings and ancillary works by compacted soil due to decline of the water table in aquifers; (ii) the requirement for realignment of diversion structures in open channels; (iii) redistribution of stresses and strains in building works and structures creating the potential for excessive forces and subsequent failures.…”

Section: Introductionmentioning

confidence: 99%

A study of subsidence hotspots by mapping vulnerability indices through innovatory ‘ALPRIFT’ using artificial intelligence at two levels

Nadiri

Khatibi²,

Khalifi

et al. 2020

Bull Eng Geol Environ

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Declining groundwater levels due to the absence of a planning system makes aquifers vulnerable to subsidence. This paper investigates possible hotspots in terms of Subsidence Vulnerability Indices (SVI) by applying the ALPRIFT framework, introduced recently by the authors by mirroring the procedure for the DRASTIC framework. ALPRIFT is suitable to cases, where data is sparse, and is the acronym of seven data layers to be presented in due course. It is a scoring technique, in which each data layer bears an aspect of land subsidence and is prescribed with rates to account for local variability, and with prescribed weights to account for relative significance of the data layer. The inherent subjectivity in prescribed weights is treated in this paper by learning their values from site-specific data by the strategy of using artificial intelligence to learn from multiple models (AIMM). The strategy has two levels: (i) at Level 1, three fuzzy models are used to learn weight values from the local data and from observed target data, and (ii) at Level 2, genetic expression algorithm (GEP) is used to learn further, in which the outputs of the models at Level 1 are reused as its inputs and observed data as its target values. The results show that (i) the Nash-Sutcliff Efficiency (NSE) coefficient for ALPRIFT with measured land subsidence values is approx. 0.21; (ii) NSE is improved to 0.88 by learning the weights at Level 1 using fuzzy logic, and (iii) NSE is further improved to 0.94 by further learning at Level 2 using GEP.

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Section: Introductionmentioning

confidence: 99%

A study of subsidence hotspots by mapping vulnerability indices through innovatory ‘ALPRIFT’ using artificial intelligence at two levels

Nadiri

Khatibi²,

Khalifi

et al. 2020

Bull Eng Geol Environ

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“…Although groundwater control measures have been taken, it is observed that the groundwater level behind the side wall will gradually decrease with the increase of excavation depth. Due to the decrease of groundwater level, obvious ground settlement was observed 35 . The increase of ground settlement will increase the soil loss, which will reduce the reliability.…”

Section: Resultsmentioning

confidence: 99%

Monitoring Data Analysis and Structural Reliability of Foundation Pit During Construction: A Case Study

Meng

Qiu

ZHao³

et al. 2021

Preprint

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In order to solve the problem that only considering the deformation of the side wall or the ground settlement of a single factor of the reliability evaluation may lead to insecurity, a deformation reliability evaluation method considering both the deformation of the side wall and the ground settlement is proposed. This evaluation method is used to evaluate the reliability of foundation pit structure deformation of Jinan metro in Shandong Province, China. Through the study of the deformation of the side wall and ground settlement loss on six profiles, the influence of the coefficient (λ、α and β) on the reliability is considered, and the recommended value of the coefficient (λ、α and β) is given. The reliability of six profiles is evaluated and the reliability level is obtained successfully. The reliability evaluation method can solve the problem that considering a single failure mode may lead to insecurity, and can provide an effective solution to the reliability evaluation of foundation pit retaining structure deformation.

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“…When a joint in a D-wall does contain defects, leakage may occur. If the excavation is below the groundwater table, there is the possibility that water inrush and piping may occur during excavation, resulting in land subsidence and even disaster [ 6 , 7 , 8 , 9 , 10 ]. Furthermore, the bearing capacity of the foundation will decrease with the inrush of groundwater into the excavation zone [ 11 ].…”

Section: Introductionmentioning

confidence: 99%

Application of Fiber Bragg Grating Sensor Technology to Leak Detection and Monitoring in Diaphragm Wall Joints: A Field Study

Zhang

Chen

Zheng

et al. 2021

Sensors

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Joints between diaphragm wall panels are weak spots in wall construction. It is essential that potential leak sites are detected prior to excavation. In this study, a novel leak detection and monitoring system is presented that is based on fiber Bragg grating (FBG) sensing technology. A field study was performed in a deep excavation supported by diaphragm walls (in Hohhot, China) to validate the feasibility and effectiveness of the proposed method. Two schemes were trialed; one using pipes made of stainless steel, and one used a pipeless method. The results of the field study are presented and discussed. They show that potential leak sites in the wall joints could be determined prior to excavation using the proposed detection method. Stainless steel is a good material to use to make the detection tube because it can protect the FBG sensors and heating belts from damage and is more sensitive to water leakage. The field study provides good evidence for the feasibility of the new detection system. It also provides valuable experience for the field application of the system and has generated useful data to use in follow-up work.

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Numerical study of the effects of groundwater drawdown on ground settlement for excavation in residual soils

Cited by 87 publications

References 36 publications

A study of subsidence hotspots by mapping vulnerability indices through innovatory ‘ALPRIFT’ using artificial intelligence at two levels

A study of subsidence hotspots by mapping vulnerability indices through innovatory ‘ALPRIFT’ using artificial intelligence at two levels

Monitoring Data Analysis and Structural Reliability of Foundation Pit During Construction: A Case Study

Application of Fiber Bragg Grating Sensor Technology to Leak Detection and Monitoring in Diaphragm Wall Joints: A Field Study

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