Dynamics of Droplets

Par : Norbert Roth, Arnold Frohn

Formats :

    • Nombre de pages292
    • PrésentationRelié
    • Poids0.54 kg
    • Dimensions16,0 cm × 24,0 cm × 1,6 cm
    • ISBN3-540-65887-4
    • EAN9783540658870
    • Date de parution28/06/2000
    • Collectionexperimental fluid mechanics
    • ÉditeurSpringer

    Résumé

    Intended to provide an up-to-date overview of the field, this book is also likely to become a standard work of reference on the science of droplets. Beginning with the theoretical background important for droplet dynamics, it continues with a presentation of the various methods for generating single droplets and regular droplet systems. Also included is a detailed description of the experimental methods employed in droplet research. A special chapter is devoted to the various types of droplet interactions without phase transition. A separate chapter then treats many examples of the possible phase transition processes. The final part of the book gives a summary of important applications. With its comprehensive content, this book will be of interest to all scientists and lecturers; concerned with two-phase flow, spray technology, heterogeneous combustion, and aerosol science.
    Intended to provide an up-to-date overview of the field, this book is also likely to become a standard work of reference on the science of droplets. Beginning with the theoretical background important for droplet dynamics, it continues with a presentation of the various methods for generating single droplets and regular droplet systems. Also included is a detailed description of the experimental methods employed in droplet research. A special chapter is devoted to the various types of droplet interactions without phase transition. A separate chapter then treats many examples of the possible phase transition processes. The final part of the book gives a summary of important applications. With its comprehensive content, this book will be of interest to all scientists and lecturers; concerned with two-phase flow, spray technology, heterogeneous combustion, and aerosol science.