Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics

Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics

The supercritical water oxidation is a significant way for the waste disposal. The diffusion of the oxygen in the water at the infinite dilution is simulated at 300 K and 1 atm, and 650 K, 673 K, 773 K, 873 K, 973 K, and 250 atm with the molecular dynamics software. The mean squared displacement met...

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Main Authors: Zhao Xiao, Liu Yigang, Zou Jian, Wang Qiuxia, Liu Hao, Zhang Hua, Jin Hui
Format: Article
Language:English
Published: VINCA Institute of Nuclear Sciences 2019-01-01
Series:Thermal Science
Subjects:
diffusion
oxygen
molecular dynamics
supercritical water oxidation
arrhenius equation
Online Access:http://www.doiserbia.nb.rs/img/doi/0354-9836/2019/0354-98361900093Z.pdf
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spelling doaj-08e48034e486465491bf21b68593e5032021-01-02T13:29:48ZengVINCA Institute of Nuclear SciencesThermal Science0354-98362019-01-0123Suppl. 378178710.2298/TSCI180623093Z0354-98361900093ZDetermining diffusion coefficients of oxygen in supercritical water with molecular dynamicsZhao Xiao0Liu Yigang1Zou Jian2Wang Qiuxia3Liu Hao4Zhang Hua5Jin Hui6Xi’an Jiaotong University, State Key Laboratory of Multiphase Flow in Power Engineering (SKLMF), Xi’an, Shaanxi, ChinaBohai Oilfield Research Institute, Tianjin Branch, CNOOC China Limited, Tanggu Tianjin, ChinaBohai Oilfield Research Institute, Tianjin Branch, CNOOC China Limited, Tanggu Tianjin, ChinaBohai Oilfield Research Institute, Tianjin Branch, CNOOC China Limited, Tanggu Tianjin, ChinaBohai Oilfield Research Institute, Tianjin Branch, CNOOC China Limited, Tanggu Tianjin, ChinaBohai Oilfield Research Institute, Tianjin Branch, CNOOC China Limited, Tanggu Tianjin, ChinaXi’an Jiaotong University, State Key Laboratory of Multiphase Flow in Power Engineering (SKLMF), Xi’an, Shaanxi, ChinaThe supercritical water oxidation is a significant way for the waste disposal. The diffusion of the oxygen in the water at the infinite dilution is simulated at 300 K and 1 atm, and 650 K, 673 K, 773 K, 873 K, 973 K, and 250 atm with the molecular dynamics software. The mean squared displacement method is used to calculate the diffusion coefficient. At 300 K, 1 atm, our calculation gives 0.20 ⋅ 10–8 m2/s, which is very near to three empirical equations. When the condition is beyond the critical point, these empirical equations lost their accuracy, and only Kawasaki-Oppenheim equation can be compared to our calculation results. At supercritical conditions, we illustrate the diffusion coefficients with the Arrhenius equation and the activation energy is 22.54 kJ/mol.http://www.doiserbia.nb.rs/img/doi/0354-9836/2019/0354-98361900093Z.pdfdiffusionoxygenmolecular dynamicssupercritical water oxidationarrhenius equation
collection DOAJ
language English
format Article
sources DOAJ
author Zhao Xiao
Liu Yigang
Zou Jian
Wang Qiuxia
Liu Hao
Zhang Hua
Jin Hui
spellingShingle Zhao Xiao
Liu Yigang
Zou Jian
Wang Qiuxia
Liu Hao
Zhang Hua
Jin Hui
Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
Thermal Science
diffusion
oxygen
molecular dynamics
supercritical water oxidation
arrhenius equation
author_facet Zhao Xiao
Liu Yigang
Zou Jian
Wang Qiuxia
Liu Hao
Zhang Hua
Jin Hui
author_sort Zhao Xiao
title Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
title_short Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
title_full Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
title_fullStr Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
title_full_unstemmed Determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
title_sort determining diffusion coefficients of oxygen in supercritical water with molecular dynamics
publisher VINCA Institute of Nuclear Sciences
series Thermal Science
issn 0354-9836
publishDate 2019-01-01
description The supercritical water oxidation is a significant way for the waste disposal. The diffusion of the oxygen in the water at the infinite dilution is simulated at 300 K and 1 atm, and 650 K, 673 K, 773 K, 873 K, 973 K, and 250 atm with the molecular dynamics software. The mean squared displacement method is used to calculate the diffusion coefficient. At 300 K, 1 atm, our calculation gives 0.20 ⋅ 10–8 m2/s, which is very near to three empirical equations. When the condition is beyond the critical point, these empirical equations lost their accuracy, and only Kawasaki-Oppenheim equation can be compared to our calculation results. At supercritical conditions, we illustrate the diffusion coefficients with the Arrhenius equation and the activation energy is 22.54 kJ/mol.
topic diffusion
oxygen
molecular dynamics
supercritical water oxidation
arrhenius equation
url http://www.doiserbia.nb.rs/img/doi/0354-9836/2019/0354-98361900093Z.pdf
work_keys_str_mv AT zhaoxiao determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
AT liuyigang determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
AT zoujian determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
AT wangqiuxia determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
AT liuhao determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
AT zhanghua determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
AT jinhui determiningdiffusioncoefficientsofoxygeninsupercriticalwaterwithmoleculardynamics
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