Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane
- Autores
- Cobos, Carlos Jorge; Sölter, L.; Tellbach, E.; Troe, J.
- Año de publicación
- 2013
- Idioma
- inglés
- Tipo de recurso
- artículo
- Estado
- versión publicada
- Descripción
- The thermal decomposition reactions of CF3CF2H and CF3CFHCF3 have been studied in shock waves by monitoring the appearance of CF2 radicals. Temperatures in the range 1400–2000 K and Ar bath gas concentrations in the range (2–10) × 10−5 mol cm−3 were employed. It is shown that the reactions are initiated by C–C bond fission and not by HF elimination. Differing conclusions in the literature about the primary decomposition products, such as deduced from experiments at very low pressures, are attributed to unimolecular falloff effects. By increasing the initial reactant concentrations in Ar from 60 to 1000 ppm, a retardation of CF2 formation was observed while the final CF2 yields remained close to two CF2 per C2F5H or three CF2 per C3F7H decomposed. This is explained by secondary bimolecular reactions which lead to comparably stable transient species like CF3H, releasing CF2 at a slower rate. Quantum-chemical calculations and kinetic modeling help to identify the reaction pathways and provide estimates of rate constants for a series of primary and secondary reactions in the decomposition mechanism.
Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas - Materia
-
Química
Fission
Decomposition
Kinetic energy
Radical
Physical chemistry
Thermal decomposition
Chemistry
Pentafluoroethane
Shock wave
Reaction rate constant - Nivel de accesibilidad
- acceso abierto
- Condiciones de uso
- http://creativecommons.org/licenses/by-nc-sa/4.0/
- Repositorio
.jpg)
- Institución
- Universidad Nacional de La Plata
- OAI Identificador
- oai:sedici.unlp.edu.ar:10915/127278
Ver los metadatos del registro completo
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Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropaneCobos, Carlos JorgeSölter, L.Tellbach, E.Troe, J.QuímicaFissionDecompositionKinetic energyRadicalPhysical chemistryThermal decompositionChemistryPentafluoroethaneShock waveReaction rate constantThe thermal decomposition reactions of CF3CF2H and CF3CFHCF3 have been studied in shock waves by monitoring the appearance of CF2 radicals. Temperatures in the range 1400–2000 K and Ar bath gas concentrations in the range (2–10) × 10−5 mol cm−3 were employed. It is shown that the reactions are initiated by C–C bond fission and not by HF elimination. Differing conclusions in the literature about the primary decomposition products, such as deduced from experiments at very low pressures, are attributed to unimolecular falloff effects. By increasing the initial reactant concentrations in Ar from 60 to 1000 ppm, a retardation of CF2 formation was observed while the final CF2 yields remained close to two CF2 per C2F5H or three CF2 per C3F7H decomposed. This is explained by secondary bimolecular reactions which lead to comparably stable transient species like CF3H, releasing CF2 at a slower rate. Quantum-chemical calculations and kinetic modeling help to identify the reaction pathways and provide estimates of rate constants for a series of primary and secondary reactions in the decomposition mechanism.Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas2013-12-18info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionArticulohttp://purl.org/coar/resource_type/c_6501info:ar-repo/semantics/articuloapplication/pdf9797-9807http://sedici.unlp.edu.ar/handle/10915/127278enginfo:eu-repo/semantics/altIdentifier/issn/1463-9084info:eu-repo/semantics/altIdentifier/issn/1463-9076info:eu-repo/semantics/altIdentifier/pmid/24352693info:eu-repo/semantics/altIdentifier/doi/10.1039/c3cp54274binfo:eu-repo/semantics/openAccesshttp://creativecommons.org/licenses/by-nc-sa/4.0/Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)reponame:SEDICI (UNLP)instname:Universidad Nacional de La Platainstacron:UNLP2025-09-29T11:30:42Zoai:sedici.unlp.edu.ar:10915/127278Institucionalhttp://sedici.unlp.edu.ar/Universidad públicaNo correspondehttp://sedici.unlp.edu.ar/oai/snrdalira@sedici.unlp.edu.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:13292025-09-29 11:30:43.181SEDICI (UNLP) - Universidad Nacional de La Platafalse |
| dc.title.none.fl_str_mv |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| title |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| spellingShingle |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane Cobos, Carlos Jorge Química Fission Decomposition Kinetic energy Radical Physical chemistry Thermal decomposition Chemistry Pentafluoroethane Shock wave Reaction rate constant |
| title_short |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| title_full |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| title_fullStr |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| title_full_unstemmed |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| title_sort |
Shock wave and modeling study of the thermal decomposition reactions of pentafluoroethane and 2-H-heptafluoropropane |
| dc.creator.none.fl_str_mv |
Cobos, Carlos Jorge Sölter, L. Tellbach, E. Troe, J. |
| author |
Cobos, Carlos Jorge |
| author_facet |
Cobos, Carlos Jorge Sölter, L. Tellbach, E. Troe, J. |
| author_role |
author |
| author2 |
Sölter, L. Tellbach, E. Troe, J. |
| author2_role |
author author author |
| dc.subject.none.fl_str_mv |
Química Fission Decomposition Kinetic energy Radical Physical chemistry Thermal decomposition Chemistry Pentafluoroethane Shock wave Reaction rate constant |
| topic |
Química Fission Decomposition Kinetic energy Radical Physical chemistry Thermal decomposition Chemistry Pentafluoroethane Shock wave Reaction rate constant |
| dc.description.none.fl_txt_mv |
The thermal decomposition reactions of CF3CF2H and CF3CFHCF3 have been studied in shock waves by monitoring the appearance of CF2 radicals. Temperatures in the range 1400–2000 K and Ar bath gas concentrations in the range (2–10) × 10−5 mol cm−3 were employed. It is shown that the reactions are initiated by C–C bond fission and not by HF elimination. Differing conclusions in the literature about the primary decomposition products, such as deduced from experiments at very low pressures, are attributed to unimolecular falloff effects. By increasing the initial reactant concentrations in Ar from 60 to 1000 ppm, a retardation of CF2 formation was observed while the final CF2 yields remained close to two CF2 per C2F5H or three CF2 per C3F7H decomposed. This is explained by secondary bimolecular reactions which lead to comparably stable transient species like CF3H, releasing CF2 at a slower rate. Quantum-chemical calculations and kinetic modeling help to identify the reaction pathways and provide estimates of rate constants for a series of primary and secondary reactions in the decomposition mechanism. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas |
| description |
The thermal decomposition reactions of CF3CF2H and CF3CFHCF3 have been studied in shock waves by monitoring the appearance of CF2 radicals. Temperatures in the range 1400–2000 K and Ar bath gas concentrations in the range (2–10) × 10−5 mol cm−3 were employed. It is shown that the reactions are initiated by C–C bond fission and not by HF elimination. Differing conclusions in the literature about the primary decomposition products, such as deduced from experiments at very low pressures, are attributed to unimolecular falloff effects. By increasing the initial reactant concentrations in Ar from 60 to 1000 ppm, a retardation of CF2 formation was observed while the final CF2 yields remained close to two CF2 per C2F5H or three CF2 per C3F7H decomposed. This is explained by secondary bimolecular reactions which lead to comparably stable transient species like CF3H, releasing CF2 at a slower rate. Quantum-chemical calculations and kinetic modeling help to identify the reaction pathways and provide estimates of rate constants for a series of primary and secondary reactions in the decomposition mechanism. |
| publishDate |
2013 |
| dc.date.none.fl_str_mv |
2013-12-18 |
| dc.type.none.fl_str_mv |
info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Articulo http://purl.org/coar/resource_type/c_6501 info:ar-repo/semantics/articulo |
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article |
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publishedVersion |
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http://sedici.unlp.edu.ar/handle/10915/127278 |
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eng |
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eng |
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