My Library

University LibraryCatalogue

For faster,
simpler
access.
Use Lean
Library.
Get it now
Don't show me again
     
Limit search to items available for borrowing or consultation
Result Page: Previous Next
Can't find that book? Try BONUS+
 
Look for full text

Search Discovery

Search CARM Centre Catalogue

Search Trove

Add record to RefWorks

Cover Art
PRINTED BOOKS
Author Kraus, Allan D.

Title Extended surface heat transfer / Allan D. Kraus, Abdul Aziz, James Welty.

Published New York ; Chichester : Wiley, [2001]
©2001

Copies

Location Call No. Status
 UniM Store Engin  621.4022 KRAU    AVAILABLE
Physical description xiv, 1105 pages : illustrations ; 24 cm.
Series A Wiley-Interscience publication.
Wiley-Interscience publication.
Bibliography Includes bibliographical references (pages 1034-1073) and indexes.
Contents 1 Convection with Simplified Constraints 1 -- 1.2 Extended Surface Heat Transfer 6 -- 1.3 Longitudinal Fins 10 -- 1.4 Radial Fins 25 -- 1.5 Spines 40 -- 2 Convection with Real Constraints 59 -- 2.2 Fins with Tip Heat Loss 60 -- 2.3 Nonuniform Heat Transfer Coefficients 81 -- 2.4 Fins with Internal Heat Generation 91 -- 2.5 Polygonal Fins 94 -- 2.6 Closure 99 -- 3 Convective Optimizations 102 -- 3.2 Quest for the Optimum Profile 105 -- 3.3 Optimum Shapes of Longitudinal Fins 109 -- 3.4 Optimum Shapes of Radial Fins 117 -- 3.5 Optimum Spine Dimensions 132 -- 3.6 Improved Analyses for Convecting Fins 138 -- 3.7 Closure 157 -- 4 Convection Coefficients 160 -- 4.2 Fluid Flow Considerations 161 -- 4.3 Heat Transfer Considerations 171 -- 4.4 Correlations for Forced Convection Heat Transfer 172 -- 4.5 Natural Convection 190 -- 4.6 Closure 207 -- 5 Linear Transformations 220 -- 5.2 Limitations of Fin Efficiency 221 -- 5.3 Longitudinal Fin of Rectangular Profile Revisited 223 -- 5.4 Linear Transformation 226 -- 5.5 Other Linear Transformations 226 -- 5.6 Summary of All Conversions 234 -- 5.7 Formal Development of the Linear Transformations 234 -- 5.8 Example of Finding the Parameters 238 -- 5.9 Input Admittance and the Thermal Transmission Ratio 240 -- 6 Elements of Linear Transformations 244 -- 6.2 Regular Fins and Spines 245 -- 6.3 Singular Fins and Spines 290 -- 6.4 Single Series Resistance 302 -- 6.5 Single Shunt Conductance 304 -- 6.6 Closure 305 -- 7 Algorithms for Finned Array Assembly 308 -- 7.2 Algorithms for the Combination of Fins 309 -- 7.3 Cascade Algorithm and the Variable Heat Transfer Coefficient 329 -- 8 Advanced Array Methods and Array Optimization 337 -- 8.2 Multiple Heat Inputs 338 -- 8.3 Node Analysis of Finned Arrays 342 -- 8.4 General Analysis Method 359 -- 8.5 Optimization of Finned Arrays 368 -- 8.6 Optimum (Least Material) Arrays of Fins 375 -- 8.7 Optimum Natural-Convection Heat Sinks 381 -- 9 Finned Passages 390 -- 9.2 Finned Passage 391 -- 9.3 Input Admittance and the Fin Efficiency 391 -- 9.4 Overall Passage Efficiency 394 -- 9.5 Single Stack 394 -- 9.6 Double Stack 408 -- 9.7 n-Stack 426 -- 9.8 Closure 441 -- 10 Compact Heat Exchangers 443 -- 10.2 Heat Transfer and Flow Friction Data 455 -- 10.3 [set membership]-N[subscript tu] Method 457 -- 10.4 Design of a Compact Heat Exchanger 473 -- 11 Longitudinal Fin Double-Pipe Exchangers 489 -- 11.2 Plain Double-Pipe Exchanger 489 -- 11.3 Longitudinal Fin Double-Pipe Exchanger 494 -- 11.4 Heat Transfer Coefficients in Pipes and Annuli 503 -- 11.5 Pressure Loss in Pipes and Annuli 507 -- 11.6 Complete Design 508 -- 11.7 Series-Parallel Arrangements 519 -- 11.8 Multiple-Finned Double-Pipe Exchangers 530 -- 11.9 Closure 538 -- 12 Transverse High-Fin Exchangers 540 -- 12.2 Bond or Contact Resistance of High-Fin Tubes 542 -- 12.3 Fin Efficiency Approximation 549 -- 12.4 Air-Fin Coolers 551 -- 13 Fins with Radiation 572 -- 13.2 Longitudinal Radiating Fin of Rectangular Profile 577 -- 13.3 Longitudinal Radiating Fins of Trapezoidal and Triangular Profile 594 -- 13.4 Use of the Cascade Algorithm 602 -- 13.5 Longitudinal Radiating Fin with Constant-Temperature Gradient 605 -- 13.6 Parabolic Radiating Profiles 611 -- 13.7 Radial Radiating Fins 614 -- 13.8 Closure 633 -- 14 Optimum Design of Radiating and Convecting-Radiating Fins 636 -- 14.2 Optimum Dimensions of Longitudinal Radiating Fins 636 -- 14.3 Optimum Dimensions of Radiating Spines 651 -- 14.4 Improved Optimization Analyses for Radiating Fins 657 -- 14.5 Fin-to-Fin and Fin-to-Base Radiation Interchange 681 -- 14.6 Optimum Dimensions of Longitudinal Convecting-Radiating Fins 686 -- 14.7 Optimum Dimensions of Radial Radiating Fins 690 -- 14.8 Miscellaneous Studies 695 -- 15 Multidimensional Heat Transfer in Fins and Fin Assemblies 699 -- 15.2 Longitudinal Fin of Rectangular Profile with Convection 700 -- 15.3 Convecting Longitudinal Fin of Triangular Profile 717 -- 15.4 Convecting Cylindrical Spine or Pin Fin 721 -- 15.5 Radial Rectangular Profile Convecting Fin 725 -- 15.6 Composite Fins 731 -- 15.7 Convecting Fin Assemblies 734 -- 15.8 Radiating and Convecting-Radiating Fins and Fin Assemblies 743 -- 15.9 Additional Studies 750 -- 16 Transient Heat Transfer in Extended Surfaces 754 -- 16.2 Longitudinal Fin of Rectangular Profile 754 -- 16.3 Radial Convecting Fin 774 -- 16.4 Longitudinal Fins with Power Law Dissipation 784 -- 16.5 Longitudinal Convecting-Radiating Fins 796 -- 16.6 Two-Dimensional Effects and Transient Heat Flow 799 -- 16.7 Composite Fins 805 -- 16.8 Variable Heat Transfer Coefficient 813 -- 16.9 Miscellaneous Studies 814 -- 16.10 Closure 816 -- 17 Periodic Heat Flow in Fins 819 -- 17.2 Longitudinal Fin of Rectangular Profile 819 -- 17.3 Radial Fin of Rectangular Profile 839 -- 17.4 Additional Studies 841 -- 18 Boiling from Finned Surfaces 844 -- 18.2 Evaporation 849 -- 18.3 Boiling 852 -- 18.4 Performance of a Single Cylindrical Spine 863 -- 18.5 Optimum Dimensions for the Cylindrical Spine 868 -- 18.6 Minimum Mass Spine 870 -- 18.7 Extended Surfaces in Moist Air 872 -- 19 Condensation on Finned Surfaces 880 -- 19.2 Condensation on Single Fins 884 -- 19.3 Dehumidification of Air on Fins 909 -- 19.4 Horizontal Integral-Fin Tubes 924 -- 19.5 Internally Finned Tubes 939 -- 19.6 Microfin Tubes 942 -- 20 Augmentation and Additional Studies 948 -- 20.1 Augmentation 948 -- 20.2 Heat Transfer in Electronic Equipment 955 -- 20.3 Heat Pipes 959 -- 20.4 Solar Collectors and Related Equipment 959 -- 20.5 Finned Regenerators 960 -- 20.6 Numerical Analyses 960 -- 20.7 Mathematical Techniques 962 -- 20.8 Turbine Blades 964 -- 20.9 Design Methods 965 -- 20.10 Freezing or Melting on the Fin Faces 965 -- 20.11 Heat and Mass Transfer 965 -- 20.12 Miscellaneous Citations 966 -- Appendix A Gamma and Bessel Functions 971 -- Appendix B Matrices and Determinants 1005.
Summary A much-needed reference focusing on the theory, design, and applications of a broad range of surface types. * Written by three of the best-known experts in the field. * Covers compact heat exchangers, periodic heat flow, boiling off finned surfaces, and other essential topics.
Other author Aziz, A., 1939-
Welty, James R.
Subject Heat -- Transmission.
Surfaces (Technology)
ISBN 0471395501 £125.00