Joseph M. Heimerl scite author profile

The rate coefficients for the reactions of He+ ions with N2 and O2 have been measured in a drift tube–mass spectrometer from thermal energies (300°K) to ∼ 0.1 eV. In addition to reaction rate determinations by the usual product-ion “arrival spectrum” method, a new technique involving “additional residence time” for the parent ion is described which is applicable even when parent and product ions have equal mobilities. The total rate coefficient (i.e., the sum of dissociative and the ordinary charge transfer) for He++N2 reaction was found to be (1.0 + 0.3, − 0.2) × 10−9 cm3/sec at 300°K, decreasing to ∼ 7 × 10−10 cm3/sec at 0.1 eV. The corresponding coefficient for the He++O2 reaction was measured to be (8.5 + 2.5, − 2.0) × 10−10 cm3/sec and to be independent of energy over the same range. The ratio of dissociative charge transfer (with N+ or O+, respectively, as reaction products) to ordinary charge transfer (with N2+ or O2+, respectively, as products) was found to be 0.55 / 0.45 for He++N2 and 0.8 / 0.2 for He++O2.

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The detailed modeling of premixed, laminar steady-state flames. I. Ozone

Heimerl¹,

Coffee²

1980

Combustion and Flame

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The unimolecular ozone decomposition reaction

Heimerl¹,

Coffee²

1979

Combustion and Flame

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Combustion following turbulent mixing in muzzle flows

Klingenberg

Heimerl

1987

Combustion and Flame

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Joseph M. Heimerl

Transport algorithms for premixed, laminar steady-state flames

Ion–Molecule Reactions, He++O2 and He++N2, at Thermal Energies and Above

The detailed modeling of premixed, laminar steady-state flames. I. Ozone

The unimolecular ozone decomposition reaction

Combustion following turbulent mixing in muzzle flows

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