Madhusudana | Thermal Contact Conductance | E-Book | sack.de
E-Book

E-Book, Englisch, 168 Seiten, eBook

Reihe: Mechanical Engineering Series

Madhusudana Thermal Contact Conductance


E-Book, Englisch, 168 Seiten, eBook

Reihe: Mechanical Engineering Series

ISBN: 978-1-4612-3978-9
Verlag: Springer US
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Heat transfer between two bodies in thermal contact is of fundamental importance in a wide variety of applications ranging from industrial and domestic processes to fundamental biology and chemistry. This book covers both the theoretical and practical aspects of thermal contact conductance. The theoretical discussion covers heat transfer through spots, joints, and surfaces, as well as the role of interstitial materials (both planned and inadvertent). The practical discussion includes formulae and data for use in designing heat-transfer equipment for a variety of joints, including special geometries and configurations.
Madhusudana Thermal Contact Conductance jetzt bestellen!

Zielgruppe

Research

Autoren/Hrsg.

Madhusudana, C.V.

Weitere Infos & Material

1 Introduction.- 1.1 Mechanism of Contact Heat Transfer.- 1.2 Significance of Contact Heat Transfer.- 1.3 Scope of Present Work.- References.- 2 Thermal Constriction Resistance.- 2.1 Circular Disc in Half Space.- 2.2 Resistance of a Constriction Bounded by a Semi-Infinite Cylinder.- 2.3 Constriction in a Fluid Environment.- 2.4 Other Types of Constrictions.- References.- 3 Solid Spot Thermal Conductance of a Joint.- 3.1 Multiple Spot Contact Conductance.- 3.2 Estimation of the Number and Average Size of Contact Spots.- 3.3 Deformation Analysis.- 3.4 Theoretical Expressions for Thermal Contact Conductance.- 3.5 Effect of Macroscopic Irregularities.- 3.6 Correlations for Solid Spot Conductance.- 3.7 Numerical Example: Solid Spot Conductance.- References.- 4 Gas Gap Conductance.- 4.1 Factors Affecting Gas Gap Conductance.- 4.2 The Accommodation Coefficient.- 4.3 Effect of Gas Pressure on Gas Gap Conductance.- 4.4 Correlations for Gas Gap Conductance.- 4.5 Gas Gap Conductance: Conclusions.- 4.6 Numerical Example: Gas Gap Conductance.- References.- 5 Experimental Aspects.- 5.1 Axial Heat Flow Apparatus.- 5.2 Radial Heat Flow Apparatus.- 5.3 Periodic Contacts.- 5.4 Transient Measurements.- 5.5 Analog Methods.- 5.6 Accuracy.- 5.7 Summary.- References.- 6 Control of Thermal Contact Conductance Using Interstitial Materials.- 6.1 Solid Interstitial Materials.- 6.2 Metallic Foils.- 6.3 Wire Screens.- 6.4 Surface Coatings.- 6.5 Insulating Interstitial Materials.- 6.6 Lubricating Films and Greases.- 6.7 Other Interstitial Materials.- References.- 7 Special Topics in Thermal Contact Conductance.- 7.1 Bolted or Riveted Joints.- 7.2 Cylindrical Joints.- 7.3 Rectification.- 7.4 Hysteresis.- 7.5 Effective Thermal Conductivity of Packed Beds.- 7.6 Stacks of Laminations.- 7.7 Solid Spot Conductance of Specific Materials.- 7.8 Thermal Contact Resistance in the Presence of Oxide Films.- References.- 8 Concluding Remarks.- 8.1 Control of Thermal Contact Conductance.- 8.2 Recommendations for Further Research.- References.- Author Index.

Ihre Fragen, Wünsche oder Anmerkungen
Vorname*
Nachname*
Ihre E-Mail-Adresse*
Kundennr.
Ihre Nachricht*
Lediglich mit * gekennzeichnete Felder sind Pflichtfelder.
Wenn Sie die im Kontaktformular eingegebenen Daten durch Klick auf den nachfolgenden Button übersenden, erklären Sie sich damit einverstanden, dass wir Ihr Angaben für die Beantwortung Ihrer Anfrage verwenden. Selbstverständlich werden Ihre Daten vertraulich behandelt und nicht an Dritte weitergegeben. Sie können der Verwendung Ihrer Daten jederzeit widersprechen. Das Datenhandling bei Sack Fachmedien erklären wir Ihnen in unserer Datenschutzerklärung.