Heat Exchanger Design Handbook - Online
|
Table of Contents:Thermal and hydraulic design of heat exchangersContributorsPreface Preface to 1998 Edition of Part 3 Preface to First Edition of Part 3 3.1 INTRODUCTION TO HEAT EXCHANGER DESIGN 3.1.1 Fundamental Concepts, Kenneth J. Bell 3.1.2 Types of Heat Exchangers and Their Applications, Kenneth J. Bell 3.1.3 Logic of the Design Process, Kenneth J. Bell 3.1.4 Approximate Sizing of Shell-and-Tube Heat Exchangers, Kenneth J. Bell 3.2 DOUBLE PIPE AND MULTI-TUBE HEAT EXCHANGERS 3.2.1 Introduction, J. Taborek 3.2.2 Calculation procedures for heat transfer coefficient and pressure drop, J. Taborek 3.2.3 Overall heat transfer coefficient, surface temperature and mean temperature difference, J. Taborek 3.2.4 Type Available, A. R. Guy 3.2.5 Construction/Mechanical Design, A. R. Guy 3.2.6 Operational Advantage, A. R. Guy 3.3 SHELL-AND-TUBE HEAT EXCHANGERS: SINGLE-PHASE FLOW 3.3.1 Objectives and Background, J. Taborek 3.3.2 Survey of Shell-Side Flow Correlations, J. Taborek 3.3.3 Recommended Method: Principles and Limitations, J. Taborek 3.3.4 Practices of Shell-and-Tube Heat Exchanger Design, J. Taborek 3.3.5 Input Data and Recommended Practices, J. Taborek 3.3.6 Auxiliary Calculations, J. Taborek 3.3.7 Ideal Tube Bank Correlations for Heat Transfer and Pressure Drop, J. Taborek 3.3.8 Calculation of Shell-Sidve Heat Transfer Coefficient and Pressure Drop, J. Taborek 3.3.9 Performance Evaluation of a Geometrically Specified Exchanger, J. Taborek 3.3.10 Design Procedures for Segmentally Baffled Heat Exchangers, J. Taborek 3.3.11 Extension of the Method to Other Shell, Baffle, and Tube Bundle Geometries, J. Taborek 3.3.12 Longitudinal Flow in Tube Bundles with Grid Baffles, J. Taborek 3.3.13 Flow Stream Analysis Method for Segmentally Baffled Shell and Tube Heat Exchangers, G. F. Hewitt 3.4 CONDENSERS 3.4.1 Introduction, D. Butterworth 3.4.2 Selection of Condenser Types, A. C. Mueller 3.4.3 Discussion of Condenser Types, D. Butterworth and A. C. Mueller 3.4.4 Pure Vapors and Mixtures, D. Butterworth and A. C. Mueller 3.4.5 Operational Problems, D. Butterworth 3.4.6 Heat Transfer, A. C. Mueller 3.4.7 Pressure Drop, A. C. Mueller 3.4.8 Mean Temperature Difference, A. C. Mueller 3.4.9 Design Procedure, A. C. Mueller 3.5 EVAPORATORS 3.5.1 Introduction, R. A. Smith and P. D. Hills 3.5.2 Types of evaporators, R. A. Smith and P. D. Hills 3.5.3 Arrangements, R. A. Smith and P. D. Hills 3.5.4 Design Details, R. A. Smith and P. D. Hills 3.5.5 Choice of Type, R. A. Smith and P. D. Hills 3.5.6 Estimation of Pressure Drop and Circulation Rate, R. A. Smith and P. D. Hills 3.5.7 Estimation of Heat Transfer Coefficients, R. A. Smith and P. D. Hills 3.5.8 Estimation of Surface Area, R. A. Smith and P. D. Hills 3.6 SHELL-AND-TUBE REBOILERS 3.6.1 Introduction, J. W. Palen 3.6.2 Thermal Design, J. W. Palen 3.6.3 Pressure Drop, J. W. Palen 3.6.4 Special Design Considerations, J. W. Palen 3.6.5 Calculation Procedure, J. W. Palen 3.7 PLATE HEAT EXCHANGERS 3.7.1 Overview of Constructional and Operational Elements, H. Kumar and A. Cooper 3.7.2 Operating Principles, H. Kumar and A. Cooper 3.7.3 Performance, H. Kumar and A. Cooper 3.7.4 The Plate Evaporator, A. Cooper 3.8 AIR-COOLED HEAT EXCHANGERS 3.8.1 Air as Coolant for Industrial Processes: Comparison to Water, P. Paikert 3.8.2 Custom-Built Units, P. Paikert 3.8.3 Fin-Tube Systems for Air Coolers, P. Paikert 3.8.4 Fin-Tube Bundles, P. Paikert 3.8.5 Thermal Design and Rating, P. Paikert 3.8.6 Pressure Drop Consideration, P. Paikert 3.8.7 Cooling Air Supply by Fans, P. Paikert 3.8.8 Cooling Air Supply in Natural Draft Cooling Towers, P. Paikert 3.8.9 Special Features of Air Coolers, P. Paikert 3.9 COMPACT HEAT EXCHANGERS 3.9.1 Introduction, R. L. Webb 3.9.2 Definition of Geometric Terms, R. L. Webb 3.9.3 Plate Fin Surface Geometries, R. L. Webb 3.9.4 Surface Performance Data, R. L. Webb 3.9.5 Laminar Flow Surfaces, R. L. Webb 3.9.6 Correlation of Heat Transfer and Friction Data, R. L. Webb 3.9.7 Goodness Factor Comparisons, R. L. Webb 3.9.8 Specification of Rating and Sizing Problems, R. L. Webb 3.9.9 Calculation Procedure for a Rating Problem, R. L. Webb 3.9.10 Pressure Drop Calculation, R. L. Webb 3.9.11 Procedures for the Thermal Sizing Problem, R. L. Webb 3.9.12 Multifluid Service, R. L. Webb 3.9.13 Recent Theory and Data on Vaporization and Condensation, R. L. Webb 3.10 HEAT PIPES 3.10.1 Introduction, D. Chisholm 3.10.2 Circulation and Axial Heat Transfer, D. Chisholm 3.10.3 Temperature Distributions and Radial Heat Transfer Flux, D. Chisholm 3.10.4 Axial Heat Transfer and the Operational Envelope, D. Chisholm 3.10.5 Selection of Working Fluid, D. Chisholm 3.10.6 Characteristics of Wicks, D. Chisholm 3.10.7 Start-up and Control, D. Chisholm 3.10.8 Design of Heat Pipe Exchangers, D. Paikert 3.11 FURNACES AND COMBUSTION CHAMBERS 3.11.1 Introduction, J S. Truelove 3.11.2 Process Heaters and Boilers, J S. Truelove 3.11.3 Heat Transfer in Furnaces, J S. Truelove 3.11.4 The Stirred-Reactor Furnace Model, J S. Truelove 3.11.5 The Plug-Flow Furnace Model, J S. Truelove 3.11.6 The Multizone Furnace Model, J S. Truelove 3.11.7 Advanced Furnace Models, J S. Truelove 3.12 COOLING TOWERS 3.12.1 Introduction, R. Niessen 3.12.2 Design and Operation, R. Niessen 3.12.3 Packing, R. Niessen 3.12.4 Cooling Tower Measurement, R. Niessen 3.13 DRYERS 3.13.1 Introduction, E. U. Schlunder 3.13.2 Classification and Selection, E. U. Schlunder 3.13.3 Layout and Performance Data, E. U. Schlunder 3.13.4 Prediction of Drying Rates, E. U. Schlunder 3.13.5 Prediction of Residence Times with Prescribed Material Flow, E. U. Schlunder 3.13.6 Prediction of Residence Times with Non-prescribed Material Flow, E. U. Schlunder 3.13.7 Practical Dryer Design, D. Reay 3.14 AGITATED VESSELS 3.14.1 Introduction, W. R. Penney 3.14.2 Equipment, W. R. Penney 3.14.3 Heat Transfer Correlations, W. R. Penney 3.15 REGENERATION AND THERMAL ENERGY STORAGE 3.15.0 Introduction, F. W. Schmidt 3.15.1 Operation of Regenerators, A. J. Willmott 3.15.2 Consruction of Regenerator Packing, A. J. Willmott 3.15.3 Internal Behavior of a Regenerator: Development of the Mathematical Model A. J. Willmott 3.15.4 Heat Transfer Coefficient, A. J. Willmott 3.15.5 Use of Bulk or Overall Heat Transfer Coefficient, A. J. Willmott 3.15.6 Development of Dimensionless Parameters, A. J. Willmott 3.15.7 Calculation of Regenerator Thermal Performance, A. J. Willmott 3.15.8 Effect of Longitudinal Conduction in the Packing of the Regenerator, A. J. Willmott 3.15.9 Dealing with Heat Losses, A. J. Willmott 3.15.10 Transient Characteristics of Regenerators, A. J. Willmott 3.15.11 Explicit Design of Balanced Regenerators, B. Kulakowski 3.15.12 Single-Blow Operations, F. W. Schmidt 3.16 WASTE HEAT BOILER SYSTEMS 3.16.1 Description of Typical System, P. Hinchley 3.16.2 Key Aspects of the Design and Specification of Individual Items of Plant, P. Hinchley 3.16.3 Detailed Mechanical Design and Fabrication of Equipment, P. Hinchley 3.16.4 Precommissioning of Waste Heat Boiler Systems, P. Hinchley 3.17 FOULING IN HEAT EXCHANGERS 3.17.1 Fouling in Heat Exchangers: Overview and Summary, J. G. Knudsen and G. F. Hays 3.17.2 Types of Fouling, N. Epstein 3.17.3 Analysis of the Fouling Process, J. G. Knudsen 3.17.4 Measurement of Fouling, G. F. Hays 3.17.5 Environmental Impact of Heat Exchanger Fouling, T. R. Bott 3.17.6 Designing Heat Exchangers for Fouling Conditions, T. R. Bott, S. H. Chan, R. K. Fuller, G. F. Hays, K. W. Herman, J. G. Knudsen, L. F. Melo, E. R. Miller, H. Muller-Steinhagen, A. P. Watkinson and D. I. Wilson 3.17.7 Type of Heat Exchanger and Fouling Potential, T. R. Bott, G. F. Hays, K. W. Herman, A. E. Jones, J. G. Knudsen, E. R. Miller, H. Muller-Steinhagen, J. W. Palen, C. B. Panchal and D. I. Wilson 3.17.8 Fouling Mitigation and Heat Exchanger Cleaning, T. R. Bott, G. F. Hays, J. G. Knudsen, E. R. Miller, A. P. Watkinson, D. I. Wilson 3.17.9 Fouling in the Nuclear Industry, D. H. Lister and C. W. Turner 3.18 PRACTICAL ASPECTS OF HEAT EXCHANGER OPERATION 3.18.1 Scope, R. A. Smith 3.18.2 Checks at the Design Stage, R. A. Smith 3.18.3 Problems with Air Cooled Heat Exchangers, P. D. Hills 3.18.4 Problems with Condensers, R. A. Smith 3.18.5 Problems with Vaporisers, R. A. Smith 3.18.6 Problems with Water Cooling Towers, R. A. Smith 3.19 DIRECT CONTACT HEAT EXCHANGERS 3.19.1 Types of direct contact heat exchangers, H. R. Jacobs 3.19.2 Direct Contact Heat Transfer Equipment with Drops or Bubbles, H. R. Jacobs 3.19.3 Spray Columns, H. R. Jacobs 3.19.4 Sieve Tray Columns, H. R. Jacobs 3.19.5 Baffle Tray and Other Columns, H. R. Jacobs 3.20 DIRECT CONTACT CONDENSERS 3.20.1 Introduction, H. R. Jacobs 3.20.2 Drop-type Condensers, H. R. Jacobs 3.20.3 Film-type Condensers, H. R. Jacobs 3.20.4 Bubble-type Condensers, H. R. Jacobs 3.21 (In Preparation) 3.22 FLASH EVAPORATION 3.22.1 Definition and Applications, H. El-Dessouky and H. Ettouney 3.22.2 Flash Dessalination Processes, by H. El-Dessouky and H. Ettouney 3.22.3 Ocean Thermal Energy Conversion, by H. El-Dessouky and H. Ettouney |