47th AIAA Thermophysics Conference 2017
DOI: 10.2514/6.2017-3163
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Master equation simulation of O2-N2 collisions on an ab-initio potential energy surface

Abstract: Simulation of vibrational energy transfer in O2-N2 collisions is conducted using the quasiclassical trajectory method on an accurate potential energy surface. State-resolved rate coefficients are obtained for the O2 and N2 vibrational ladders at temperatures between 8000 and 15,000 K. A system of master equations is constructed using the new dataset in order to simulate nonequilibrium conditions observed in shock flows. The relaxation time derived from a solution of the master equations is in good agreement wi… Show more

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Cited by 5 publications
(3 citation statements)
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“…For molecule–molecule collisions of nitrogen and oxygen, recent QCT simulations show that O 2 –N 2 and N 2 –O 2 collisions are well-described by Millikan–White’s expression for temperatures lower than 9000 K, but at higher temperatures, the Millikan–White formula, even with Park’s correction, underestimates the relaxation times, especially for N 2 –O 2 collisions.…”
Section: Resultsmentioning
confidence: 99%
“…For molecule–molecule collisions of nitrogen and oxygen, recent QCT simulations show that O 2 –N 2 and N 2 –O 2 collisions are well-described by Millikan–White’s expression for temperatures lower than 9000 K, but at higher temperatures, the Millikan–White formula, even with Park’s correction, underestimates the relaxation times, especially for N 2 –O 2 collisions.…”
Section: Resultsmentioning
confidence: 99%
“…quasi-classical trajectory (QCT) first principles calculations from Ref. [41,42], and experiment of Ref. [43].…”
Section: Validation Of the Forced Harmonic Oscillator Modelmentioning
confidence: 99%
“…It may rely, however, on empirical models for many thermal and chemical processes [2]. The level of detail in the description of vibrational and chemical relaxation may be much higher when the vibrationally resolved, QCT-based master equation [32] is used; this approach is somewhat cost-prohibitive in 2D flowfields [33], but the ultra-simplified zero-dimensional bath case is well suited for comparing it to other approximations. Recent work [34], however, argues that master equations based purely on vibrational quantum levels which ignore coupling between vibrational and rotational states may have inaccuracies.…”
Section: Time (S)mentioning
confidence: 99%