Kern’s Process Heat Transfer 2nd Edition by Ann Marie Flynn, Toshihiro Akashige, Louis Theodore 1119363640 9781119363644
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Product details:
ISBN 10: 1119363640
ISBN 13: 9781119363644
Author: Ann Marie Flynn; Toshihiro Akashige; Louis Theodore
This book insures the legacy of the original 1950 classic, Process Heat Transfer, by Donald Q. Kern. This second edition book is divided into three parts: Fundamental Principles; Heat Exchangers; and Other Heat Transfer Equipment/ Considerations. – Part I provides a series of chapters concerned with introductory topics that are required when solving heat transfer problems. This part of the book deals with topics such as steady-state heat conduction, unsteady-state conduction, forced convection, free convection, and radiation. – Part II is considered by the authors to be the “meat” of the book – addressing heat transfer equipment design procedures and applications. In addition to providing a more meaningful treatment of the various types of heat exchangers, this part also examines the impact of entropy calculations on exchanger design. – Part III of the book examines other related topics of interest, including boiling and condensation, refrigeration and cryogenics, boilers, cooling towers and quenchers, batch and unsteady-state processes, health & safety and the accompanying topic of risk. An Appendix is also included. What is new in the 2nd edition Changes that are addressed in the 2nd edition so that Kern’s original work continues to remain relevant in 21st century process engineering include: – Updated Heat Exchanger Design – Increased Number of Illustrative Examples – Energy Conservation/ Entropy Considerations – Environmental Considerations – Health & Safety – Risk Assessment – Refrigeration and Cryogenics – Inclusion of SI Units
Kern’s Process Heat Transfer 2nd Table of contents:
Part I Fundamentals and Principles
1 Introduction to Process Heat Transfer
Introduction
1.1 Units and Dimensional Analysis
1.2 Key Physical Properties
1.3 Key Process Variables and Concepts
1.4 Laws of Thermodynamics
1.5 Heat-Related Theories and Transfer Mechanisms
1.6 Fluid Flow and Pressure Drop Considerations
1.7 Environmental Considerations
1.8 Process Heat Transfer
References
2 Steady-State and Unsteady-State Heat Conduction
Introduction
2.1 Flow of Heat through a Plane Wall
2.2 Flow of Heat through a Composite Plane Wall: Resistances in Series
2.3 Flow of Heat through a Pipe Wall
2.4 Flow of Heat through a Composite Pipe Wall: Resistances in Series
2.5 Steady-State Conduction: Microscopic Approach
2.6 Unsteady-State Heat Conduction
2.7 Unsteady-State Conduction: Microscopic Approach
References
3 Forced and Free Convection
Introduction
3.1 Forced Convection Principles
3.2 Convective Resistances
3.3 Heat Transfer Coefficients: Quantitative Information
3.4 Convection Heat Transfer: Microscopic Approach
3.5 Free Convection Principles and Applications
3.6 Environmental Applications
References
4 Radiation
Introduction
4.1 The Origin of Radiant Energy
4.2 The Distribution of Radiant Energy
4.3 Radiant Exchange Principles
4.4 Kirchoff’s Law
4.5 Emissivity Factors and Energy Interchange
4.6 View Factors
References
Part II Heat Exchangers
5 The Heat Transfer Equation
Introduction
5.1 Heat Exchanger Equipment Classification
5.2 Energy Relationships
5.3 Log Mean Temperature Difference (LMTD) Driving Force
5.4 The Overall Heat Transfer Coefficient (U)
5.5 The Heat Transfer Equation
References
6 Double Pipe Heat Exchangers
Introduction
6.1 Equipment Description and Details
6.2 Key Describing Equations
6.3 Calculation of Exit Temperatures
6.4 Pressure Drop in Pipes and Pipe Annuli
6.5 Open-Ended Problems
6.6 Kern’s Design Methodology
6.7 Practice Problems from Kern’s First Edition
References
7 Shell-and-Tube Heat Exchangers
Introduction
7.1 Equipment Description and Details
7.2 Key Describing Equations
7.3 Open-Ended Problems
7.4 Kern’s Design Methodology
7.5 Other Design Procedures and Applications
7.6 Computer Aided Heat Exchanger Design
7.7 Practice Problems from Kern’s First Edition
References
8 Extended Surface/Finned Heat Exchangers
Introduction
8.1 Fin Details
8.2 Equipment Description
8.3 Key Describing Equations
8.4 Fin Effectiveness and Performance
8.5 Kern’s Design Methodology
8.6 Other Fin Considerations
8.7 Practice Problems from Kern’s First Edition
References
9 Other Heat Exchangers
Introduction
9.1 Condensers
9.2 Evaporators
9.3 Boilers and Furnaces
9.4 Waste Heat Boilers
9.5 Cogeneration/Combined Heat and Power (CHP)
9.6 Quenchers
9.7 Cooling Towers
9.8 Heat Pipes
References
Part III Peripheral Topics
10 Other Heat Transfer Considerations
Introduction
10.1 Insulation and Refractory
10.2 Refrigeration and Cryogenics
10.3 Instrumentation and Controls
10.4 Batch and Unsteady-State Processes
10.4 Batch and Unsteady-State Processes
10.5 Operation, Maintenance, and Inspection (OM&I)
10.6 Economics and Finance
References
11 Entropy Considerations and Analysis
Introduction
11.1 Qualitative Review of the Second Law
11.2 Describing Equations
11.3 The Heat Exchanger Dilemma
11.4 Application to a Heat Exchanger Network
References
12 Health and Safety Concerns
Introduction
12.1 Definitions
12.2 Legislation
12.3 Material Safety Data Sheets
12.4 Health Risk versus Hazard Risk
12.5 Health Risk Assessment
12.6 Hazard Risk Assessment
References
Appendix
Tables
AT.1 Conversion Constants
AT.2 Thermodynamic Properties of Steam/Steam Tables
AT.3 Properties of Water (Saturated Liquid)
AT.4 Properties of Air at 1 atm
AT.5 Properties of Selected Liquids at 1 atm and 20 C (68 F)
AT.6 Properties of Selected Gases at 1 atm and 20 C (68 F)
AT.7 Dimensions, Capacities, and Weights of Standard Steel Pipes
AT.8 Dimensions of Heat Exchanger Tubes
AT.9 Tube-Sheet Layouts (Tube Counts) on a Square Pitch
AT.10 Tube-Sheet Layouts (Tube Counts) on a Triangular Pitch
AT.11 Approximate Design Overall Heat Transfer Coefficients (Btu/hr·ft2·F)
AT.12 Approximate Design Fouling Coefficient Factors (hr·ft2· F/Btu)
Figures
AF.1 Fanning Friction Factor (f) vs. Reynolds Number (Re) Plot
AF.2 Psychometric Chart: Low Temperatures: Barometric Pressure, 29.92 in. Hg.
AF.3 Psychometric Chart: High Temperatures: Barometric Pressure, 29.92 in. Hg.
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