Daniel Imre scite author profile

Abstract. This paper analyzes data obtained on July 3 and 18, 1995, during the summer 1995 Southern Oxidant Study (SOS) field campaign. In a previous paper [Nunnermacker et al., 1998] we analyzed measurements of key species that contribute to formation of O3 in the Nashville urban plume and presented a semiquantitative picture of O3 production in the plume from the point of emission to locations where no net O3 was being formed. In this paper we use a box model constrained by observed concentrations of stable species to obtain a detailed mechanistic description of the instantaneous processing of urban emissions at various times in the chemical evolution of the urban plume. Instantaneous ozone production rates and efficiencies with respect to NOx and to primary radical production are examined. At high NOx concentrations in the fresh urban plume the O3 production rate was found to be directly proportional to the hydrocarbon to NOx reactivity ratio. At lower NOx concentrations, corresponding to the mature urban plume and the background atmosphere, the O3 production rate was found to be directly proportional to the NOx concentration and independent of the hydrocarbon reactivity. NOx was found to be most efficiently used for ozone production at low NOx concentrations. In contrast, the efficiency with which the system uses primary radicals was found to be very low at low NOx concentrations and to peak at a NOx concentration of approximately 4 ppbv. A sensitivity study of the instantaneous O3 production rates to changes in NOx or hydrocarbon concentrations showed that the instantaneous 03 production rate at the center of the urban plume, when half of the urban NOx emissions had been processed, is hydrocarbon sensitive. However, 03 production becomes NOx sensitive as the plume matures.

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Helium (He I) photoelectron spectrum of benzocyclobutadiene

Koenig¹,

Imre²,

Hoobler³

1979

J. Am. Chem. Soc.

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Non-Koopmans' theorem effects in the helium(I) photoelectron spectra of polyenes

Koenig¹,

Klopfenstein²,

Southworth³

et al. 1983

J. Am. Chem. Soc.

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The he(I) photoelectron spectrum of atomic iodine by photodissociation of molecular iodine

Imre

Koenig

1980

Chemical Physics Letters

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Daniel Imre

Model correlations for ozone, reactive nitrogen, and peroxides for Nashville in comparison with measurements: Implications for O₃‐NO_x‐hydrocarbon chemistry

Analysis of the processing of Nashville urban emissions on July 3 and July 18, 1995

Helium (He I) photoelectron spectrum of benzocyclobutadiene

Non-Koopmans' theorem effects in the helium(I) photoelectron spectra of polyenes

The he(I) photoelectron spectrum of atomic iodine by photodissociation of molecular iodine

Contact Info

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Resources

About

Daniel Imre

Model correlations for ozone, reactive nitrogen, and peroxides for Nashville in comparison with measurements: Implications for O3‐NOx‐hydrocarbon chemistry

Analysis of the processing of Nashville urban emissions on July 3 and July 18, 1995

Helium (He I) photoelectron spectrum of benzocyclobutadiene

Non-Koopmans' theorem effects in the helium(I) photoelectron spectra of polyenes

The he(I) photoelectron spectrum of atomic iodine by photodissociation of molecular iodine

Contact Info

Product

Resources

About

Model correlations for ozone, reactive nitrogen, and peroxides for Nashville in comparison with measurements: Implications for O₃‐NO_x‐hydrocarbon chemistry