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Article title
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Abstract
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Keywords
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Introduction
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Mathematical model of the processes of mass transfer and physico-chemical interaction of impurities in the volume of the coolant and on the surfaces of structural steels
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Description of the processes of physicochemical interaction of impurities in the coolant volume and on the surfaces of structural steels
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Oxide film growth kinetics model
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General Provisions
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Film growth model within the Wagner approach
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Martinelli Approximation
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Zhang’s approach
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Approximation of a semi-empirical account of diffusion through an oxide film
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Oxide film growth criterion
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Parabolic law for the growth of an oxide film
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Double layer film
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Model of volume sources in a coolant flow
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Parabolic film growth constant
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Corrosion processes. Mass transfer coefficient
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Justification of the calculation method
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Simulation of film growth in the framework of the simplified 0D-model
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Numerical analysis of oxide film growth on surfaces of simple geometries using MASKA-LM and STAR-CCM+ codes
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Distribution of oxygen at a given drain on the pipe wall
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Numerical analysis of oxide film growth
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Conclusion
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References
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Appendix
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