附註:Includes bibliographical references and index.
Cover -- TABLE OF CONTENTS -- Foreword -- Preface -- Symbols -- 1. Introduction ... The main features of cavitating flows -- 1.1. The physical phenomenon -- 1.2. Cavitation in real liquid flows -- 1.3. Specific features of cavitating flow -- 1.4. Non-dimensional parameters -- 1.5. Some historical aspects -- References -- 2. Nuclei and cavitation -- 2.1. Introduction -- 2.2. Equilibrium of a nucleus -- 2.3. Heat and mass diffusion -- 2.4. Nucleus population -- References -- 3. The dynamics of spherical bubbles -- 3.1. Basic equations -- 3.2. The collapse of a vapor bubble -- 3.3. The explosion of a nucleus -- 3.4. The effect of viscosity -- 3.5. Non-linear oscillations of a bubble -- 3.6. Scaling considerations -- 3.7. Stability of the spherical interface -- References -- 4. Bubbles in a non-symmetrical environment. -- 4.1. Introduction -- 4.2. Motion of a spherical bubble in a liquid at rest -- 4.3. Non-spherical bubble evolution -- 4.4. The path of a spherical bubble -- References -- Appendix to section 4.3.3 -- 5. Further insights into bubble physics -- 5.1. The effect of compressibility -- 5.2. Bubble noise -- 5.3. Some thermal aspects -- 5.4. A typical numerical solution -- References -- Appendix to section 5.1.3 -- 6. Supercavitation -- 6.1. Physical aspects of supercavities -- 6.2. Supercavity flow modeling using steady potential flow theory -- 6.3. Typical results -- 6.4. Axisymmetric cavities -- 6.5. Specific problems -- References -- 7. Partial cavities -- 7.1. Partial cavities on two-dimensional foils -- 7.2. Partial cavities in internal flows -- 7.3. The cloud cavitation instability -- 7.4. Wakes of partial cavities -- 7.5. Thermal effects in partial cavitation -- 7.6. System instability -- 7.7. Partial cavity flow modeling -- References -- Appendix: sonic velocity in a liquid/vapor mixture with phase change -- 8. Bubbles and cavities on two-dimensional foils -- 8.1. Attached cavitation -- 8.2. Traveling bubble cavitation -- 8.3. Interaction between bu
摘要:This book treats cavitation, which is a unique phenomenon in the field of hyd- dynamics, although it can occur in any hydraulic machinery such as pumps, propellers, artificial hearts, and so forth. Cavitation is generated not only in water, but also in any kind of fluid, such as liquid hydrogen. The generation of cavitation can cause severe damage in hydraulic machinery. Therefore, the prevention of cavitation is an important concern for designers of hydraulic machinery. On the contrary, there is great potential to utilize cavitation in various important applications, such as environmental protection. There have been several books published on cavitation, including one by the same authors. This book differs from those previous ones, in that it is both more physical and more theoretical. Any theoretical explanation of the cavitation phenomenon is rather difficult, but the authors have succeeded in explaining it very well, and a reader can follow the equations easily. It is an advantage in reading this book to have some understanding of the physics of cavitation. Therefore, this book is not an introductory text, but a book for more advanced study. However, this does not mean that this book is too difficult for a beginner, because it explains the cavitation phenomenon using many figures. Therefore, even a beginner on cavitation can read and can understand what cavitation is. If the student studies through this book (with patience), he or she can become an expert on the physics of cavitation.