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W2072453670 endingPage "194005" @default.
W2072453670 startingPage "194005" @default.
W2072453670 abstract "The role of electronic excited states in affecting the thermodynamic and transport properties of thermal plasma is investigated in the temperature range [300‐100 000 K] and in the pressure range [1‐10 3 atm] for hydrogen and [10 −2 ‐10 3 atm] for nitrogen. Thermodynamic functions have been calculated modelling in different ways the electronic levels of atomic species (ground-state, Debye‐H¨ uckel and confined-atom approximations). Frozen and reactive specific heats as well as isentropic coefficients are strongly affected by the electronic excitation whereas compensation effects smooth its influence on the total specific heat, i.e. the sum of frozen and reactive contributions. Higher-order approximations of the Chapman‐Enskog method have been used to evaluate transport coefficients, including electronically excited states as separate species. The importance of a state-to-state approach to calculate transport coefficients is presented taking into account the strong dependence of transport cross sections on the principal quantum number. Results for hydrogen, nitrogen and air plasmas are widely discussed." @default.
W2072453670 created "2016-06-24" @default.
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W2072453670 creator A5021668972 @default.
W2072453670 creator A5026621075 @default.
W2072453670 creator A5073640635 @default.
W2072453670 date "2009-09-18" @default.
W2072453670 modified "2023-10-17" @default.
W2072453670 title "Thermodynamics and transport properties of thermal plasmas: the role of electronic excitation" @default.
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W2072453670 doi "https://doi.org/10.1088/0022-3727/42/19/194005" @default.
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