Extensive High-Accuracy Thermochemistry and Group Additivity Values for Halocarbon Combustion Modeling

Standard enthalpies, entropies, and heat capacities are calculated for 16 813 halocarbons using an automated high-fidelity thermochemistry workflow. This workflow generates conformers at density functional tight-binding (DFTB) level, optimizes geometries, calculates harmonic frequencies, and performs 1D hindered rotor scans at DFT level, and computes electronic energies at a Gaussian 4 (G4) level. The computed enthalpies of formation for 400 molecules show good agreement with literature references, but the majority of the calculated species have no reference in the literature. Thus, this work presents G4-computed thermochemistry for thousands of novel halocarbons. This new data set is used to train an extensive ensemble of group additivity values and hydrogen bond increment groups within the Reaction Mechanism Generator (RMG) framework. On average, the new group values estimate standard enthalpies for halogenated hydrocarbons significant contribution toward automated mechanism generation of halocarbon combustion, this research provides thermochemical within 3 kcal/mol of their G4 values. A data for thousands of novel halogenated species and presents a self-consistent set of halogen group additivity values.