Vertical Distribution of Titan’s Atmospheric Neutral Constituents

Authors: L. M. Lara

The vertical distribution of Titan’s neutral atmosphere compounds is calculated from a new photochemical model extending from 40 to 1432 km. This model makes use of many updated reaction rates, and of the new scheme for methane photolysis proposed by Mordauntet al. [1993].The model also includes a realistic treatment of the dissociation of N2, of the deposition of water in the atmosphere from meteoritic ablation, and of condensation processes. The sensitivity of the results to the eddy diffusion coefficient profile is investigated. Fitting the methane thermospheric profile and the stratospheric abundance of the major hydrocarbons requires a methane stratospheric mixing ratio of 1.5-2% rather than 3%. Fitting the HCN stratospheric profile requires an eddy diffusion coefficient at 100-300 km that is 5-20 times larger than that necessary for the hydrocarbons. Most species are reasonably well reproduced, with the exception of CH3C2H and HC3N. The formation of CH3CN may involve the reaction of CN with either CH4 or (preferably) C2H6.The observed CO2 profile can be modeled by assuming an external source of water of 6x 106cm-2s-•. For a nominal CO mixing ratio of 5x 10-s, the chemical loss of CO exceeds its production by—15%, and equilibrium is achieved for CO = 1 x 10^(-5)-s.

https://doi.org/10.1029/96JE02036

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