Description

Book Synopsis
A leading cause of polluted air in urban atmospheres is the interaction of sunlight with an air mixture containing nitrogen oxides and reactive hydrocarbons. Several classes of hydrocarbons are highly reactive hydrocarbons; one is the alkenes, the subject of The Mechanisms of the Atmospheric Oxidation of the Alkenes (Calvert, et al., OUP, 2000). This book, the second in a series of comprehensive studies of these compounds, will review and evaluate existing literature on the mechanisms of the aromatic hydrocarbons, which have a particularly high potential for ozone generation. The focus of the text will be on problem solving and clarifying uncertain aspects of the chemistry of these compounds.

Trade Review
"Seven members of the Coordinating Research Council's Review Panel on the Atmospheric Chemistry of the Hydrocarbons submit their technical report of research supported by a number of government agencies and industrial groups. They consider the importance of aromatic hydrocarbons in the chemistry of ozone generation in the urban atmosphere, reactions of aromatic compounds with OH radicals, reactions of ozone with aromatic compounds, primary photochemical processes of the hydrocarbons and some of their common oxidation products, applications to modeling atmospheric chemistry, areas for further study, and other topics."--SciTech Book News

Table of Contents
Acknowledgments 1: Importance of aromatic hydrocarbons in the chemistry of ozone generation in the urban atmosphere 2: Reactions of aromatic compounds with OH radicals 3: Reactions of monocyclic and polycyclic aromatic compounds with NO[3 radicals 4: Reactions of ozone with aromatic compounds 5: Reactions of O(³P) atoms with aromatic compounds 6: Reactions of non-aromatic products of aromatic compound oxidation 7: Primary photochemical processes of the aromatic hydrocarbons and some of their common oxidation products 8: Aerosol generation in atmospheric oxidation of aromatic hydrocarbons 9: Atmospheric chemistry of polycyclic aromatic hydrocarbons sorbed on particles 10: Application of findings to modeling the atmostpheric chemistry of aromatic hydrocarbons 11: Important areas for further laboratory studies 12: Summary References Appendix I: Nomenclature and molecular structure of aromatic hydrocarbons Appendix II: Nomenclature and molecular structure of some common products of the atmospheric oxidation of the aromatic hydrocarbons Author Index Subject Index

The Mechanisms of Atmospheric Oxidation of the Aromatic Hydrocarbons

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    A Hardback by Greg Yarwood, Roger Atkinson, Karl H. Becker

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      View other formats and editions of The Mechanisms of Atmospheric Oxidation of the Aromatic Hydrocarbons by Greg Yarwood

      Publisher: Oxford University Press Inc
      Publication Date: 3/7/2002 12:00:00 AM
      ISBN13: 9780195146288, 978-0195146288
      ISBN10: 019514628X

      Description

      Book Synopsis
      A leading cause of polluted air in urban atmospheres is the interaction of sunlight with an air mixture containing nitrogen oxides and reactive hydrocarbons. Several classes of hydrocarbons are highly reactive hydrocarbons; one is the alkenes, the subject of The Mechanisms of the Atmospheric Oxidation of the Alkenes (Calvert, et al., OUP, 2000). This book, the second in a series of comprehensive studies of these compounds, will review and evaluate existing literature on the mechanisms of the aromatic hydrocarbons, which have a particularly high potential for ozone generation. The focus of the text will be on problem solving and clarifying uncertain aspects of the chemistry of these compounds.

      Trade Review
      "Seven members of the Coordinating Research Council's Review Panel on the Atmospheric Chemistry of the Hydrocarbons submit their technical report of research supported by a number of government agencies and industrial groups. They consider the importance of aromatic hydrocarbons in the chemistry of ozone generation in the urban atmosphere, reactions of aromatic compounds with OH radicals, reactions of ozone with aromatic compounds, primary photochemical processes of the hydrocarbons and some of their common oxidation products, applications to modeling atmospheric chemistry, areas for further study, and other topics."--SciTech Book News

      Table of Contents
      Acknowledgments 1: Importance of aromatic hydrocarbons in the chemistry of ozone generation in the urban atmosphere 2: Reactions of aromatic compounds with OH radicals 3: Reactions of monocyclic and polycyclic aromatic compounds with NO[3 radicals 4: Reactions of ozone with aromatic compounds 5: Reactions of O(³P) atoms with aromatic compounds 6: Reactions of non-aromatic products of aromatic compound oxidation 7: Primary photochemical processes of the aromatic hydrocarbons and some of their common oxidation products 8: Aerosol generation in atmospheric oxidation of aromatic hydrocarbons 9: Atmospheric chemistry of polycyclic aromatic hydrocarbons sorbed on particles 10: Application of findings to modeling the atmostpheric chemistry of aromatic hydrocarbons 11: Important areas for further laboratory studies 12: Summary References Appendix I: Nomenclature and molecular structure of aromatic hydrocarbons Appendix II: Nomenclature and molecular structure of some common products of the atmospheric oxidation of the aromatic hydrocarbons Author Index Subject Index

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