Unloading Characteristics of Sand-drift in Wind-shallow Areas along Railway and the Effect of Sand Removal by Force of Wind

Cheng, Jianjun; Xin, Guowei; Zhi, Ling-yan; Jiang, Fuqiang

doi:10.1038/srep41462

Cited by 13 publications

(6 citation statements)

References 16 publications

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“…Consequently, the density of such a suspension is greater than the density of the usual flow generated in the wind tunnel when determining the aerodynamic characteristics of the body. Thus, the presence of sandy suspension in the air can impair the vessel's manoeuvrability [17] and lead to a loss of control even at a safe wind speed of 9 m/s, as identified in one of the SCA's main arguments [12], [21].…”

Section: Legal Assessment Of the Arguments Stated By The Partiesmentioning

confidence: 99%

“…However, to rely on this exemption, the carrier must prove in any case that the marine hazard that caused loss/damage was unpredictable, so knowledge of the weather is a crucial factor in determining whether the carrier can rely on the exemption or is negligent, For weather conditions. Usually, the latter had to deny him entry to the canal [7], [21].…”

Section: Possible Liability For Delays and Damages Of The Goodsmentioning

confidence: 99%

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M/v Ever Given: Legal Assessment of the Causes and Consequences of the Accident

Boviatsis

2022

WIT Transactions on the Built Environment

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The grounding of M/V Ever Given in the Suez Canal for six days led to an unprecedented perturbation to the supply chain of the maritime sector. Specifically, the sudden closure of the canal resulted in the delay of hundreds of vessels and subsequently to enormous claims and even, in some cases, loss of cargo. The M/V Ever Given was later impounded by Egyptian authorities for an initial claim of $916 million and was released after three months when the Egyptian government and the managing company reached an agreement for compensation. This paper aims to assess the most prominent causes of the accident, locate the causa proxima that directly led to the accident and evaluate the impact of the relevant legislation under which the vessel was operated. Initially, the material facts regarding the state of the vessel, the canal, and external factors will be explored, and each action that possibly led to the accident will be analysed. The outcome of this analysis will provide the causa proxima of the accident, and then an evaluation will be made regarding the liabilities of each stakeholder. The analysis will continue with evaluating the impact of the national and international legal provisions that were in effect during the crossing of M/V Ever Given from the Suez Canal and with the assessment of a possible limitation of liability of the most liable party. The analysis will be based on the legal doctrine, evaluating relevant legislation and previous court decisions. Finally, in conclusion, measures will be proposed to be implemented, aiming to prevent the repetition of such accidents in the future.

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Section: Legal Assessment Of the Arguments Stated By The Partiesmentioning

confidence: 99%

Section: Possible Liability For Delays and Damages Of The Goodsmentioning

confidence: 99%

M/v Ever Given: Legal Assessment of the Causes and Consequences of the Accident

Boviatsis

2022

WIT Transactions on the Built Environment

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“…The CTRW model [14,36,37] was applied, for example, to infiltration of anomalously diffusing particles from one material to another through a biased interface [38], and recently in the long-term prediction of 137 Cs concentration in the lakes after the Fukushima Daiichi Nuclear Power Plant accident [39], where the contamination particle ( 137 Cs) follows a long-tailed waiting time between jumps. Additionally to the ground and underground water pollution, such CTRW models could apply to model propagation of sandstorm particles, including pathogens or microbes carried by the sandstorm [40][41][42]. The sandstorm particles fly over a long distance before they arrive at the particular area and stay around for some time while the next flight takes place.…”

Section: Introductionmentioning

confidence: 99%

Generalized diffusion and random search processes

Zhou

Trajanovski

et al. 2022

J. Stat. Mech.

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We consider a one-dimensional Brownian search in the presence of trapping. The diffusion equation of the particle is represented by a memory kernel that enters the general waiting time probability density function. We find the general form of the first arrival time density, search reliability and efficiency and analyze several special cases of the memory kernel. We also analyze the Lévy search in the presence of trapping in cases of single and multiple targets, as well as combined Lévy–Brownian search strategies in case of a single target. The presented results are general and could be of interest for further investigation of different optimal search strategies, as well as in the animal foraging or spreading of contamination particles in the environment.

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“…The mechanism of sand sedimentation on the leeward sides of wind-break walls has recently been given serious attention. Cheng analyzed the characteristics of sand accumulation of three different types of wind-break walls by three-dimensional numerical simulations and wind-tunnel experiments and found that the wind-break wall with bottom-openings achieved improved sand dredging at high wind speeds [16]. Huang explored the characteristics of wind-blown sand flow around the wind-break wall and the causes of sand accumulation by setting up a turbulent flow-sand particle-terrain coupling model using the Lagrangian particle-tracing model and found that sand particles will be blown up and rolled back to the subgrade under the effect of vertical wind velocity and reflux [15].…”

Section: Introductionmentioning

confidence: 99%

Wind-Tunnel Studies on Sand Sedimentation Around Wind-Break Walls of Lanxin High-Speed Railway II and Its Prevention

et al. 2021

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Wind-break walls along Lanxin High-Speed Railway II were studied and approved as effective measures to reduce strong wind damage to the high-speed trains. The results show that sand sedimentation on the leeward sides of wind-break walls along the railway within Gobi Desert could significantly threaten the operation safety of running trains. Different from the current sand sedimentation prevention measures without adequate consideration of the deposition process of airborne sand particles, this study revealed the mechanism of sand sedimentation on the leeward sides of three wind-break walls within different terrains. A series of wind-tunnel experiments were carried out to measure the horizontal velocity, number density, transport flux, and deposition rate of sand particles, and it was found that the horizontal speed of sand particles was first increased and then decreased on the railway track, and the peak speed over the concave subgrade was much smaller than those over convex and flat subgrades. The number density and horizontal sand flux were largest over the concave subgrade, and were the smallest over the convex subgrade. The sand particle deposition rate and distribution were also the largest within the concave subgrade, and some measures were also proposed to prevent sand sedimentation on the leeward sides of wind-break walls.

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Unloading Characteristics of Sand-drift in Wind-shallow Areas along Railway and the Effect of Sand Removal by Force of Wind

Cited by 13 publications

References 16 publications

M/v Ever Given: Legal Assessment of the Causes and Consequences of the Accident

M/v Ever Given: Legal Assessment of the Causes and Consequences of the Accident

Generalized diffusion and random search processes

Wind-Tunnel Studies on Sand Sedimentation Around Wind-Break Walls of Lanxin High-Speed Railway II and Its Prevention

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