Arnaut , L. et al.
Chemical Kinetics
From Molecular Structure to Chemical Reactivity
Elsevier Science Ltd. 2006.12
562 pp. (H)
ISBN 0-444-52186-0
22,400円
Contents
1. Introduction/ 2. Reaction rate laws/ 3. Experimental methods/ 4. Rate constants and reaction orders/ 5. Collisions and molecular dynamics/ 6. Reactivity in thermalized systems/ 7. Structure-Reactivity Relationships/ 8.Unimolecular Reactions/ 9. Reaction in solution/ 10. Reactions in surfaces/ 11. Nucleophilic substitution reactions/ 12. Chain reactions/ 13. Acid-base catalysis and proton-transfer reactions/ 14. Enzyme catalysis/ 15. Transitions between electronic states/ 16. Electron transfers/ 17. Fractals, chaos and oscillatory reactions/
* Chemical Kinetics goes far beyond the qualitative description: with the guidance of theory, the path becomes a reaction path that can actually be inspected and calculated. But Chemical Kinetics is more about structure and reactivity than numbers and calculations. A great emphasis in the clarity of the concepts is achieved by illustrating all the theories and mechanisms with recent examples, some of them described with sufficient detail and simplicity to be used in general chemistry and lab courses. *
House, J.
Principles of Chemical Kinetics 2nd ed.
Academic Press 2007.8
336 pp. (P)
ISBN 0-12-356787-4
7,200円
Contents
1. Some Fundamental Ideas of Kinetics/ 2. Kinetics of More Complex Systems/ 3. Techniques and Methods/ 4. Reactions in the Gas Phase/ 5. Reactions in Solutions/ 6. Enzyme Catalysis/ 7. Kinetics of Reactions in the Solid State/ 8. Nonisothermal Methods in Kinetics/ 9. Additional Applications of Kinetics/
* James House's revised Principles of Chemical Kinetics provides a clear and logical description of chemical kinetics in a manner unlike any other book of its kind. Clearly written with detailed derivations, the text allows students to move rapidly from theoretical concepts of rates of reaction to concrete applications. Unlike other texts, House presents a balanced treatment of kinetic reactions in gas, solution, and solid states. The entire text has been revised and includes many new sections and an additional chapter on applications of kinetics. *
Luyben, W. L.
Chemical Reactor Design and Control
化学反応装置の設計と制御
John Wiley & Sons 2007.8
419 pp. (H)
ISBN 0-470-09770-1
14,900円
Contents
1. Reactor Basics / 2. Steady-State Design of CSTR Systems / 3. Control of CSTR Systems / 4. Control of Batch Reactors / 5. Steady-State Design of Tubular Reactor Systems / 6. Control of Tubular Reactor Systems / 7. Feed-Effluent Heat Exchangers / 8. Control of Special Types of Industrial Reactors /
* Chemical Reactor Design and Control uses process simulators like Matlab, Aspen Plus, and Aspen Dynamics to study the design of chemical reactors and their dynamic control. There are numerous books that focus on steady-state reactor design. There are no books that consider practical control systems for real industrial reactors. This unique reference addresses the simultaneous design and control of chemical reactors. *
Telle, H. H. et al.
Laser Chemistry
Spectroscopy, Dynamics & Applications
(レーザーの化学)
John Wiley & Sons 2007.6
516 pp. (P)
ISBN 0-471-48571-3
12,800円
Contents
Preface. About the authors. 1 Introduction. Part 1 Principles of lasers and laser systems : 2 Atoms and molecules, and their interaction with light waves. 3 The basics of lasers. 4 Laser systems. Part 2 Spectroscopic techniques in laser chemistry : 5 General concepts of laser spectroscopy. 6 Absorption spectroscopy. 7 Laser-induced fluorescence spectroscopy. 8 Light scattering methods: Raman spectroscopy and other processes. 9 Ionization spectroscopy. Part 3 Optics and measurement concepts : 10 Reflection, refraction and diffraction. 11 Filters and thin-film coatings. 12 Optical fibres. 13 Analysis instrumentation and detectors. 14 Signal processing and data acquisition. Part 4 Laser studies of photodissociation, photoionization and unimolecular processes : 15 Photodissociation of diatomic molecules. 16 Photodissociation of triatomic molecules. 17 Photodissociation of larger polyatomic molecules: energy landscapes. 18 Multiple and multiphoton excitation, and photoionization. 19. Coherent control and the future of ultra-short probing. Part 5 Laser studies of bimolecular reactions : 20 Basic concepts of kinetics and reaction dynamics. 21 The molecular beam method: basic concepts and examples of bimolecular reaction studies. 22 Chemical reactions with laser-prepared reagents. 23 Laser probing of chemical reaction products. Part 6 Laser studies of cluster and surface reactions. 24 Laser studies of complexes: van der Waals and cluster reactions. 25 Solvation dynamics: elementary reactions in solvent cages. 26 Laser studies of surface reactions: an introduction. 27?Laser studies of surface reactions: photochemistry in the adsorbed state. Part 7 Selected applications : 28 Environmental and other analytical applications. 29 Industrial monitoring and process control. 30 Laser applications in medicine and biology. References. References grouped by chapter. Further reading grouped by part. Web pages. Appendix. Common abbreviations and acronyms. Physical constants. Useful conversions and other relationships. Energy conversion factors. Index/ *
* Laser Chemistry: Spectroscopy, Dynamics and Applications provides a basic introduction to the subject, written for students and other novices. It assumes little in the way of prior knowledge, and carefully guides the reader through the important theory and concepts whilst introducing key techniques and applications. *
Carr, R. W. ed.
Modeling of Chemical Reactions
化学反応のモデリング
Elsevier Science Ltd. 2007.9
316 pp. (H)
ISBN 0-444-51366-3
37,000円
Contents
1. Thermochemistry/ 2. Introduction to chemical kinetics/ 3. Bimolecular reactions/ 4. Unimolecular reactions/ 5. Aerosols and nanoparticles/ 6. Group additivity methods/ 7. Quantum chemistry methods/ 8. Reaction mechanisms/ 9. Model development/ 10. Model optimization/
* Modeling of Chemical Reactions covers detailed chemical kinetics models for chemical reactions. Including a comprehensive treatment of pressure dependent reactions, which are frequently not incorporated into detailed chemical kinetic models, and the use of modern computational quantum chemistry, which has recently become an extraordinarily useful component of the reaction kinetics toolkit. *
Marin, G.B. ed.
Advances in Chemical Engineering, Vol. 32
Academic Press 2007.7
338 pp.(H)
ISBN 0-12-373899-7
23,700円
Contents
1 "Predictive Kinetics: A New Approach for the 21st Century"/ 2 "Kinetic modeling of pyrolysis processes in gas and condensed phase"/ 3 "Kinetic Models of C1-C4 ALKAnE Oxidation as Applied to Processing of Hydrocarbon Gases: Principles, Approaches and Developments"/ 4 "KINETIC METHODS in PETROLEUM PROCESS ENGINEERING"/
* Understanding and modeling the kinetics of chemical reactions is crucial to any research and development effort aimed at process optimization and innovation. This volume provides four complementary points of view. It reflects state-of-the-art developments as well as views on the way to proceed by reporting on the efforts of a representative, sample of research and development groups. *
403-16 登録日 07.12.09
