DEM-aided method for predicting the hydraulic properties with particle-size distribution of porous media

Dan, Han-Cheng; Zou, Zhuo-Min; Chen, Jiaqi; Peng, An-Ping

doi:10.1108/ec-09-2018-0398

Cited by 6 publications

(2 citation statements)

References 71 publications

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“…Modeling of these changes during the sneezing process is one of the most important features of the current work. Previous studies often used particle distribution models based on the distribution of the spherical particles ( Han et al, 2013 , Dan et al, 2019 , Song et al, 2020 , Jiang et al, 2018 ). This prevents examination of the changes in droplet diameter during the sneezing process.…”

Section: Resultsmentioning

confidence: 99%

Prediction of the spread of Corona-virus carrying droplets in a bus - A computational based artificial intelligence approach

Mesgarpour

Abad

Alizadeh

et al. 2021

Journal of Hazardous Materials

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Public transport has been identified as high risk as the corona-virus carrying droplets generated by the infected passengers could be distributed to other passengers. Therefore, predicting the patterns of droplet spreading in public transport environment is of primary importance. This paper puts forward a novel computational and artificial intelligence (AI) framework for fast prediction of the spread of droplets produced by a sneezing passenger in a bus. The formation of droplets of salvia is numerically modelled using a volume of fluid methodology applied to the mouth and lips of an infected person during the sneezing process. This is followed by a large eddy simulation of the resultant two phase flow in the vicinity of the person while the effects of droplet evaporation and ventilation in the bus are considered. The results are subsequently fed to an AI tool that employs deep learning to predict the distribution of droplets in the entire volume of the bus. This combined framework is two orders of magnitude faster than the pure computational approach. It is shown that the droplets with diameters less than 250 micrometers are most responsible for the transmission of the virus, as they can travel the entire length of the bus.

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Section: Resultsmentioning

confidence: 99%

Prediction of the spread of Corona-virus carrying droplets in a bus - A computational based artificial intelligence approach

Mesgarpour

Abad

Alizadeh

et al. 2021

Journal of Hazardous Materials

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“…Traffic volume and axle load data are important basic parameters in pavement maintenance planning and design (Song et al, 2019). Meanwhile, it is well known that traffic loading is an important factor for road performance degradation and pavement damage (Dan et al, 2019;Perez-Acebo et al, 2019). Under the same conditions, the larger the equivalent standard axle load (ESAL) is, the faster the road condition deteriorates.…”

Section: Introduction 1backgroundmentioning

confidence: 99%

A data fusion approach for estimating traffic distribution characteristics of expressway: A case study of guangdong province, china

et al. 2022

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Currently, people pay more and more attention to road maintenance, and the traffic characteristics of vehicles play an important role in road quality evolution and maintenance decision, which commonly depends on the collection and analysis of traffic data. Nevertheless, the rationality of traffic data analysis and the scientificity of maintenance decision are deficient. This study carries out a research on the data fusion of multisource traffic data including toll data and video surveillance data. First, the information of vehicle type and axle load is acquired from the toll data, and the lane, speed and temporal information are obtained from the video surveillance data. A Bayesian method is used to train toll data and video surveillance data to recover missing data. The vehicle type distribution probabilities of traffic volume during different periods and speeds in different lanes are investigated. Next, the number of equivalent standard axle load (ESAL) at different lanes, time periods, and speeds are estimated based on the axle load conversion relationship between different vehicle types. Then the axle load spectrum and distribution characteristics of traffic in different sections, lanes, speeds, and time periods are analyzed. Finally, the comparison of rutting depth from the multisource data fusion and specification is carried out, and it shows an apparent difference (e.g., beyond 20%) when the lateral distribution in lanes is taken into account. Although the difference is less than 10% by considering vehicle speed and time periods, the time to reach the same value of rutting depth maybe more than 1 year. Therefore, it greatly affects accurate determination of preventive maintenance timing. As a whole, this study provides beneficial information for accurately understanding the preventive maintenance opportunities and making reasonable maintenance decisions.

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Experimental investigation on dynamic response of asphalt pavement using SmartRock sensor under vibrating compaction loading

Dan

Yang

Xiang

et al. 2020

Construction and Building Materials

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DEM-aided method for predicting the hydraulic properties with particle-size distribution of porous media

Cited by 6 publications

References 71 publications

Prediction of the spread of Corona-virus carrying droplets in a bus - A computational based artificial intelligence approach

Prediction of the spread of Corona-virus carrying droplets in a bus - A computational based artificial intelligence approach

A data fusion approach for estimating traffic distribution characteristics of expressway: A case study of guangdong province, china

Experimental investigation on dynamic response of asphalt pavement using SmartRock sensor under vibrating compaction loading

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