|Tillner, Wolfgang / Fritsch, Horst / Kruft, Rudolf / Lehmann, Wilfried / Louis, Hartmut / Masendorf, Gunther|
Avoidance of Cavitation Damage
Principles, Methods of Test, Applications, Experience
1993. 267 Pages, Hardcover
ISBN 978-0-85298-807-7 - John Wiley & Sons
Under certain conditions liquids can change to the vapour phase; this is cavitation, and it imposes serious limitations on pumps and pipelines if damage is to be avoided.
Improved understanding of pump cavitation in recent years has enabled a limited amount to be permitted to obtain the maximum possible amount of suction, but in these circumstances it is very important to have some knowleddge of the relationship between the intake operating conditions and the cavitation field, and between the amount of cavitation and the extent of any material damage which can be expected.
The Avoidance of Cavitation Damage is concerned with the extensive field referred to by the term cavitation, which involves industrial activities and is of immense economic significance. At its simplest, it is about damage limitation and damage avoidance in pumps and their installations, and it is the first book made available in the English language which has this specific aim. It deals with conventional rotodynamic and self-priming side-channel pumps, as well as both reciprocating and rotary positive-displacement pumps.
The Avoidance of Cavitation Damage can be wholeheartedly recommended to all practising engineers concerned with the design or use of pumps - indeed, it should become a standard reference work for all concerned with pumps and their use.
From the contents
List of Authors.
English Editor's Preface.
1. Principles of physical processes in cavitation.
2. Cavitation in centrifugal pumps. The NPSH value of centrifugal pumps and their installation.
3. Characteristics of operation with cavitation and cavitation criteria for centrifugal pumps.
4. Measuring the NPSH and behaviour of centrifugal pumps in their installation.
5. Centrifugal pumps for special suction duties.
6. The oscillating displacement pump within its installation.
7. The NPSH of reciprocating displacement pumps.
8. Avoiding cavitation damage in rotating displacement pumps.
9. Methods of evaluating the properties of materials subjected to cavitation.
10. The use of materials subjected to cavitation: recognition of incipient damage and damage limitations.