Calculation of Thermochemical Properties of Carbon-cluster Ablation Species | Zendy

Maitreyee Sharma Priyadarshini | Zendy; Richard L. Jaffe | Zendy; Alessandro Munafò | Zendy; Marco Panesi | Zendy

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Calculation of Thermochemical Properties of Carbon-cluster Ablation Species

Author(s) -

Maitreyee Sharma Priyadarshini,

Richard L. Jaffe,

Alessandro Munafò,

Marco Panesi

Publication year - 2018

Publication title -

nasa sti repository (national aeronautics and space administration)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2018-4179

Subject(s) - carbon fibers , cluster (spacecraft) , ablation , materials science , chemical physics , environmental science , computer science , chemistry , aerospace engineering , engineering , algorithm , composite number , programming language

Carbon clusters and hydrocarbons are constituents of the pyrolysis gases injected into the boundary layer of a space vehicle with a carbonaceous heat shield. These molecules have absorption spectra in the VUV and UV region that match the emission spectra of atomic nitrogen and oxygen. Hence, they can potentially absorb the radiation impinging on the heat shield of the space vehicle. This paper studies the ground state thermochemical properties and low-lying excited electronic states of potential radiation absorbing molecules present in the boundary layer using ab initio quantum chemistry methods. These results provide a more accurate prediction of the radiative heat flux on the surface which can lead to improvement in the design of the thermal protection system.

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