Theoretical Studies Of Gas Phase Elementary Reactions

Theoretical Studies of Gas Phase Elementary Reactions

Author :

Publisher :

Page : 19 pages

File Size : 15,77 MB

Release : 2001

Category :

ISBN :

Get eBook

Book Description

This final technical report begins with the objective, followed by detailed reports on new accomplishments and new findings obtained in the project. They are presented in six sections: (A) Potential Energy Surfaces of Ion-Molecule Reactions, (B) Potential Energy Surfaces of Ions, (C) Potential Energy Surfaces for Photochemical Reactions and Nonadiabatic Processes, (D) Potential Energy Surfaces of Open-Shell Molecules, (E) Dynamics and Kinetics in the Ground Electronic State, and (F) Potential Energy Surfaces for the Dynamics of Chemical Laser Systems. The Publication List and Interactions/Transactions conclude the report.



Kinetics and Dynamics of Elementary Gas Reactions

Author : Ian W. M. Smith

Publisher : Butterworth-Heinemann

Page : 400 pages

File Size : 35,79 MB

Release : 2013-10-22

Category : Science

ISBN : 1483161994

Get eBook

Book Description

Kinetics and Dynamics of Elementary Gas Reactions surveys the state of modern knowledge on elementary gas reactions to understand natural phenomena in terms of molecular behavior. Part 1 of this book describes the theoretical and conceptual background of elementary gas-phase reactions, emphasizing the assumptions and limitations of each theoretical approach, as well as its strengths. In Part 2, selected experimental results are considered to demonstrate the scope of present day techniques and illustrate the application of the theoretical ideas introduced in Part 1. This publication is intended primarily for working kineticists and chemists, but is also beneficial to graduate students.



Personal Computer Cluster for Theoretical Studies of Gas Phase Elementary Reactions

Author :

Publisher :

Page : 11 pages

File Size : 26,77 MB

Release : 1999

Category :

ISBN :

Get eBook

Book Description

Three graduate students, a postdoctoral fellow, and Emerson Center staff and workstation expert and the PI of this project formed a team and work together very hard. The team did extensive literature studies (mainly visiting many web sites), detailed discussions on technical aspects had pricing studies(via internet and fax) before ordering any hardware and software. In particular, Dr. Szilagyi served as the team captain and put often overheated discussions into reality. Mr. Khoroshun has been the system manager of our PC cluster, and spend hundreds of hours in front of the Master Console in installed, tested, an integrated new hardware and software into the system. It is quite obvious that a few/several devoted graduate student and/or postdoctoral fellows are essential for any success of this kind of PC project.





Gas-Phase Reactions

Author : V.N. Kondratiev

Publisher : Springer Science & Business Media

Page : 254 pages

File Size : 17,1 MB

Release : 2012-12-06

Category : Science

ISBN : 3642676081

Get eBook

Book Description

The present monograph appears after the death of Professor V. N. Kondratiev, one of those scientists who have greatly contributed to the foundation of contem porary gas kinetics. The most fundamental idea of chemical kinetics, put for ward at the beginning of the twentieth century and connected with names such as W. Nernst, M. Bodenstein, N. N. Semenov, and C. N. Hinshelwood, was that the complex chemical reactions are in fact a manifestation of a set of simpler elementary reactions involving but a small number of species. V. N. Kondratiev was one of the first to adopt this idea and to start investigations on the elementary chemical reactions proper. These investigations revealed explicitly that every elementary reaction in turn consisted of many elementary events usually referred to as elementary processes. It took some time to realize that an elementary reaction, represented in a very simple way by a macroscopic kinetic equation, can be described on a microscopic level by a generalized Boltzmann equation. Neverheless, up to the middle of the twentieth century, gas kinetics was mainly concerned with the interpretation of complex chemical reactions via a set of elementary reactions. But later on, the situation changed drastically. First, the conditions for reducing microscopic cquations to macroscopic ones were clearly set up. These are essentially based on the fact that the small perturbations of the Maxwell-Boltzmann distribution are caused by the reaction proper.



Physical Chemistry of Fast Reactions

Author : Bryan Philip Levitt

Publisher : Springer

Page : 358 pages

File Size : 38,27 MB

Release : 1973-05

Category : Science

ISBN :

Get eBook

Book Description

The chapters in this book are devoted to the elementary reactions of small molecules in the gas phase, with some emphasis on reactions important in combustion. The first three chapters cover experimental measurements made at high temperatures, mainly using shock waves and flames; the final chapter describes discharge flow methods near room temperature. The authors-all active in the fields they describe were asked to aim at a level intermediate between a textbook and a review, designed for readers not already familiar with this branch of chemical kinetics. We hope the book will prove especially useful to research workers in related subjects, to research students, and perhaps as source material for the preparation of lectures. The examples have been chosen to illustrate the theoretical basis of the topics rather than attempt a complete coverage. Professors Wagner and Troe describe the remarkable progress made in recent years in measuring dissociation rates for small molecules. Tests ofunimolecular reaction theories are usually made in the 'fall-off' region of pressure: the kinetics change from first order to second order as the pressure is reduced. For large molecules this region lies below atmospheric pressure and is relatively easily accessible. For molecules with four or less atoms, however, the fall-off region lies well above atmospheric pressure: it has been explored using the high pressure shock tube techniques developed by the authors.



Gas Phase Reaction Rate Theory

Author : Harold S. Johnston

Publisher :

Page : 384 pages

File Size : 37,41 MB

Release : 1966

Category : Technology & Engineering

ISBN :

Get eBook

Book Description





Gas-Phase Combustion Chemistry

Author : W.C., Jr. Gardiner

Publisher : Springer Science & Business Media

Page : 564 pages

File Size : 34,70 MB

Release : 1999-12-10

Category : Science

ISBN : 9780387988610

Get eBook

Book Description

Superseding Gardiner's "Combustion Chemistry", this is an updated, comprehensive coverage of those aspects of combustion chemistry relevant to gas-phase combustion of hydrocarbons. The book includes an extended discussion of air pollutant chemistry and aspects of combustion, and reviews elementary reactions of nitrogen, sulfur and chlorine compounds that are relevant to combustion. Methods of combustion modeling and rate coefficient estimation are presented, as well as access to databases for combustion thermochemistry and modeling.



Reaction Kinetics

Author : Keith J. Laidler

Publisher : Elsevier

Page : 263 pages

File Size : 15,11 MB

Release : 2013-10-22

Category : Science

ISBN : 1483222411

Get eBook

Book Description

Reactions Kinetics: Volume I: Homogeneous Gas Reactions presents a general introduction to the subject of kinetics, including the basic laws of kinetics and the theoretical treatment of reaction rates. This four-chapter book deals mainly with homogeneous reactions in the gas phase. Chapter 1 presents the kinetic laws based on experimental results in terms of their simple concepts, with a special consideration of the way in which rates depend on concentration, while Chapter 2 deals with the interpretation of rates in terms of more fundamental theories. Chapter 3 covers the overall reactions that are believed to be elementary, such as the reaction between hydrogen and iodine, the reverse decomposition of hydrogen iodide, the corresponding reactions involving deuterium instead of hydrogen, and the dimerizations of butadiene and cyclopentadiene, as well as a few elementary termolecular reactions, all involving nitric oxide. This chapter also includes a general account of some of the elementary reactions that occur as steps in more complex mechanisms. Chapter 4 examines the reaction rates of numerous complex gas reactions. Undergraduate physical chemistry and chemical kinetics students, as well as advanced students in other fields, such as biology and physics, will find this book invaluable.