Thermal dissociation of diatomics in inert gases: A Nosé equation approach

The thermal dissociation of diatomics in inert gases has been the subject of numerous experimental and theoretical studies. There is excellent agreement between the measured and calculated bimolecular rate constants for H2, and this has become a test case for master-equation and other approaches. In...

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Published in	The Journal of chemical physics Vol. 93; no. 8; pp. 5616 - 5620
Main Authors	Hamilton, I. P., Liu, L.
Format	Journal Article
Language	English
Published	Woodbury, NY American Institute of Physics 15.10.1990
Subjects	400201 - Chemical & Physicochemical Properties ACTIVATION ENERGY CHEMICAL REACTION KINETICS CHEMICAL REACTIONS Chemistry DECOMPOSITION DISSOCIATION ELEMENTS ENERGY Exact sciences and technology FLUIDS GASES General and physical chemistry HYDROGEN INERT ATMOSPHERE INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY KINETICS NONMETALS PYROLYSIS RARE GASES REACTION KINETICS Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry THERMOCHEMICAL PROCESSES ULTRAHIGH TEMPERATURE Hydrogen Theoretical study Chemical dissociation Kinetics Thermal reaction Rate constant Inert gas
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ISSN	0021-9606 1089-7690
DOI	10.1063/1.459632

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Abstract	The thermal dissociation of diatomics in inert gases has been the subject of numerous experimental and theoretical studies. There is excellent agreement between the measured and calculated bimolecular rate constants for H2, and this has become a test case for master-equation and other approaches. In this paper we consider a Nosé equation approach, which is appropriate if the inert gas simply acts as a heat bath, as may be the case in the limit of infinite dilution of H2. We examine the extent to which the Nosé equation can thermalize the H2 dynamics for the temperature range 4000–10 000 K. We show that we can calculate meaningful pseudo-unimolecular rate constants for the temperature range 7000–10 000 K and, for this temperature range, we obtain an activation energy of 3.7±0.5 eV, which is compatible with the experimental value.
AbstractList	The thermal dissociation of diatomics in inert gases has been the subject of numerous experimental and theoretical studies. There is excellent agreement between the measured and calculated bimolecular rate constants for H{sub 2}, and this has become a test case for master-equation and other approaches. In this paper we consider a Nose equation approach, which is appropriate if the inert gas simply acts as a heat bath, as may be the case in the limit of infinite dilution of H{sub 2}. We examine the extent to which the Nose equation can thermalize the H{sub 2} dynamics for the temperature range 4000--10 000 K. We show that we can calculate meaningful pseudo-unimolecular rate constants for the temperature range 7000--10 000 K and, for this temperature range, we obtain an activation energy of 3.7{plus minus}0.5 eV, which is compatible with the experimental value. The thermal dissociation of diatomics in inert gases has been the subject of numerous experimental and theoretical studies. There is excellent agreement between the measured and calculated bimolecular rate constants for H2, and this has become a test case for master-equation and other approaches. In this paper we consider a Nosé equation approach, which is appropriate if the inert gas simply acts as a heat bath, as may be the case in the limit of infinite dilution of H2. We examine the extent to which the Nosé equation can thermalize the H2 dynamics for the temperature range 4000–10 000 K. We show that we can calculate meaningful pseudo-unimolecular rate constants for the temperature range 7000–10 000 K and, for this temperature range, we obtain an activation energy of 3.7±0.5 eV, which is compatible with the experimental value.
Author	Hamilton, I. P. Liu, L.
Author_xml	– sequence: 1 givenname: I. P. surname: Hamilton fullname: Hamilton, I. P. – sequence: 2 givenname: L. surname: Liu fullname: Liu, L.
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Keywords	Hydrogen Theoretical study Chemical dissociation Kinetics Thermal reaction Rate constant Inert gas
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SubjectTerms	400201 - Chemical & Physicochemical Properties ACTIVATION ENERGY CHEMICAL REACTION KINETICS CHEMICAL REACTIONS Chemistry DECOMPOSITION DISSOCIATION ELEMENTS ENERGY Exact sciences and technology FLUIDS GASES General and physical chemistry HYDROGEN INERT ATMOSPHERE INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY KINETICS NONMETALS PYROLYSIS RARE GASES REACTION KINETICS Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry THERMOCHEMICAL PROCESSES ULTRAHIGH TEMPERATURE
Title	Thermal dissociation of diatomics in inert gases: A Nosé equation approach
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