Predictions of Entropy and Gibbs Energy for Carbonyl Sulfide | Zendy

ChunSheng Jia | Zendy; YiTing Wang | Zendy; Lin-Sheng Wei | Zendy; Chao-Wen Wang | Zendy; Xiaolong Peng | Zendy; Liehui Zhang | Zendy

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Predictions of Entropy and Gibbs Energy for Carbonyl Sulfide

Author(s) -

ChunSheng Jia,

YiTing Wang,

Lin-Sheng Wei,

Chao-Wen Wang,

Xiaolong Peng,

Liehui Zhang

Publication year - 2019

Publication title -

acs omega

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.779

H-Index - 40

ISSN - 2470-1343

DOI - 10.1021/acsomega.9b02950

Subject(s) - gibbs free energy , sulfide , carbonyl sulfide , thermodynamics , entropy (arrow of time) , chemistry , standard molar entropy , molecule , organic chemistry , physics , sulfur

Many chemical and physical equilibrium conditions can be determined from minimizing the Gibbs free energies of the system. Efficient analytical representations of the entropy and Gibbs free energy of carbonyl sulfide remain elusive in the communality of science and engineering. Here, we report two analytical representations of the entropy and Gibbs free energy for carbonyl sulfide, and the prediction procedures only involve six molecular constants of the carbonyl sulfide molecule. In the temperature range from 300 to 6000 K, the average relative deviations of the predicted molar entropy and reduced Gibbs free energy values of carbonyl sulfide from the National Institute of Standards and Technology database are arrived at 0.150 and 0.189%, respectively.

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