Three phase heat and mass transfer model for unsaturated soil freezing process: Part 2 - Model validation

Yaning Zhang; Fei Xu; Bingxi Li; Yong Song Kim; Wenke Zhao; Gongnan Xie; Zhongbin Fu

doi:10.1515/phys-2018-0015

Three phase heat and mass transfer model for unsaturated soil freezing process: Part 2 - Model validation

Yaning Zhang, Fei Xu, Bingxi Li, Yong Song Kim, Wenke Zhao, Gongnan Xie, Zhongbin Fu

School of Marine Science and Technology

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

This study aims to validate the three-phase heat and mass transfer model developed in the first part (Three phase heat and mass transfer model for unsaturated soil freezing process: Part 1 - model development). Experimental results from studies and experiments were used for the validation. The results showed that the correlation coefficients for the simulated and experimental water contents at different soil depths were between 0.83 and 0.92. The correlation coefficients for the simulated and experimental liquidwater contents at different soil temperatures were between 0.95 and 0.99. With these high accuracies, the developed model can be well used to predict the water contents at different soil depths and temperatures.

Original language	English
Pages (from-to)	84-92
Number of pages	9
Journal	Open Physics
Volume	16
Issue number	1
DOIs	https://doi.org/10.1515/phys-2018-0015
State	Published - 2018

Keywords

pre-melted film
Saturations
soil freezing
validation
water content

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title = "Three phase heat and mass transfer model for unsaturated soil freezing process: Part 2 - Model validation",

abstract = "This study aims to validate the three-phase heat and mass transfer model developed in the first part (Three phase heat and mass transfer model for unsaturated soil freezing process: Part 1 - model development). Experimental results from studies and experiments were used for the validation. The results showed that the correlation coefficients for the simulated and experimental water contents at different soil depths were between 0.83 and 0.92. The correlation coefficients for the simulated and experimental liquidwater contents at different soil temperatures were between 0.95 and 0.99. With these high accuracies, the developed model can be well used to predict the water contents at different soil depths and temperatures.",

keywords = "pre-melted film, Saturations, soil freezing, validation, water content",

author = "Yaning Zhang and Fei Xu and Bingxi Li and Kim, {Yong Song} and Wenke Zhao and Gongnan Xie and Zhongbin Fu",

note = "Publisher Copyright: {\textcopyright} 2018 Theerasak Patcharoen et al.",

year = "2018",

doi = "10.1515/phys-2018-0015",

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T1 - Three phase heat and mass transfer model for unsaturated soil freezing process

T2 - Part 2 - Model validation

AU - Zhang, Yaning

AU - Xu, Fei

AU - Li, Bingxi

AU - Kim, Yong Song

AU - Zhao, Wenke

AU - Xie, Gongnan

AU - Fu, Zhongbin

PY - 2018

Y1 - 2018

N2 - This study aims to validate the three-phase heat and mass transfer model developed in the first part (Three phase heat and mass transfer model for unsaturated soil freezing process: Part 1 - model development). Experimental results from studies and experiments were used for the validation. The results showed that the correlation coefficients for the simulated and experimental water contents at different soil depths were between 0.83 and 0.92. The correlation coefficients for the simulated and experimental liquidwater contents at different soil temperatures were between 0.95 and 0.99. With these high accuracies, the developed model can be well used to predict the water contents at different soil depths and temperatures.

AB - This study aims to validate the three-phase heat and mass transfer model developed in the first part (Three phase heat and mass transfer model for unsaturated soil freezing process: Part 1 - model development). Experimental results from studies and experiments were used for the validation. The results showed that the correlation coefficients for the simulated and experimental water contents at different soil depths were between 0.83 and 0.92. The correlation coefficients for the simulated and experimental liquidwater contents at different soil temperatures were between 0.95 and 0.99. With these high accuracies, the developed model can be well used to predict the water contents at different soil depths and temperatures.

KW - pre-melted film

KW - Saturations

KW - soil freezing

KW - validation

KW - water content

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Three phase heat and mass transfer model for unsaturated soil freezing process: Part 2 - Model validation

Abstract

Keywords

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