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Schaum's Outline of Heat Transfer
CITATION
Pitts, Donald and
Sissom, Leighton E.
.
Schaum's Outline of Heat Transfer
. McGraw-Hill, 1998.
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Schaum's Outline of Heat Transfer
Authors:
Donald Pitts
and
Leighton E. Sissom
Published:
April 1998
eISBN:
9780071368773 0071368779
|
ISBN:
9780070502079
Open eBook
Book Description
Table of Contents
Preface
Contents
Chapter 1: INTRODUCTION
1.1 CONDUCTION
1.2 CONVECTION
1.3 RADIATION
1.4 MATERIAL PROPERTIES
1.5 UNITS
Chapter 2: ONE-DIMENSIONAL STEADY-STATE CONDUCTION
2.1 INTRODUCTORY REMARKS
2.2 GENERAL CONDUCTIVE ENERGYEQUATION
2.3 PLANE WALL: FIXED SURFACE TEMPERATURES
2.4 RADIAL SYSTEMS: FIXED SURFACE TEMPERATURES
2.5 PLANE WALL: VARIABLE THERMAL CONDUCTIVITY
2.6 HEAT GENERATION SYSTEMS
2.7 CONVECTIVE BOUNDARY CONDITIONS
2.8 HEAT TRANSFER FROM FINS
Chapter 3: MULTIDIMENSIONAL STEADY-STATE CONDUCTION
3.1 INTRODUCTION
3.2. ANALYTICAL SOLUTIONS
3.3 CONDUCTIVE SHAPE FACTOR
3.4 NUMERICAL ANALYSIS
Chapter 4: TIME-VARYING CONDUCTION
4.1 INTRODUCTION
4.2 BIOT AND FOURIER MODULI
4.3 LUMPED ANALYSIS
4.4 ONE-DIMENSIONAL SYSTEMS: FIXED SURFACE TEMPERATURE
4.5 ONE-DIMENSIONAL SYSTEMS: CONVECTIVE BOUNDARY CONDITIONS
4.6 CHART SOLUTIONS: CONVECTIVE BOUNDARY CONDITIONS
4.7 MULTIDIMENSIONAL SYSTEMS
4.8 NUMERICAL ANALYSIS
Chapter 5: FLUID MECHANICS
5.1 FLUID STATICS
5.2 FLUID DYNAMICS
5.3 CONSERVATION OF MASS
5.4 EQUATION OF MOTION ALONG A STREAMLINE
5.5 CONSERVATION OF ENERGY
Chapter 6: FORCED CONVECTION: LAMINAR FLOW
6.1 HYDRODYNAMIC (ISOTHERMAL) BOUNDARY LAYER: FLAT PLATE
6.2 THERMAL BOUNDARY LAYER: FLAT PLATE
6.3 ISOTHERMAL PIPE FLOW
6.4 HEAT TRANSFER IN PIPE FLOW
6.5 SUMMARY OF TEMPERATURES FOR PROPERTY EVALUATIONS
Chapter 7: FORCED CONVECTION: TURBULENT FLOW
7.1 EQUATIONS OF MOTION
7.2 HEAT TRANSFER AND SKIN FRICTION: REYNOLDS’ ANALOGY
7.3 FLOW OVER A FLAT PLATE
7.4 FLOW IN PIPES
7.5 EXTERNAL FLOW OVER SUBMERGED BODIES
7.6 HEAT TRANSFER TO LIQUID METALS
Chapter 8: NATURAL CONVECTION
8.1 VERTICAL FLAT PLATE
8.2 EMPIRICAL CORRELATIONS: ISOTHERMAL SURFACES
8.3 FREE CONVECTION IN ENCLOSED SPACES
8.4 MIXED FREE AND FORCED CONVECTION
8.5 NEWER CORRELATIONS
Chapter 9: BOILING AND CONDENSATION
9.1 BOILING PHENOMENA
9.2 POOL BOILING
9.3 FLOW (CONVECTION) BOILING
9.4 CONDENSATION
Chapter 10: HEAT EXCHANGERS
10.1 TYPES OF HEAT EXCHANGER
10.2 HEAT TRANSFER CALCULATIONS
10.3 HEAT EXCHANGER EFFECTIVENESS (NTU METHOD)
10.4 FOULING FACTORS
Chapter 11: RADIATION
11.1 INTRODUCTION
11.2 PROPERTIES AND DEFINITIONS
11.3 BLACKBODY RADIATION
11.4 REAL SURFACES AND THE GRAY BODY
11.5 RADIANT EXCHANGE: BLACK SURFACES
11.6 RADIANT EXCHANGE: GRAY SURFACES
11.7 RADIATION SHIELDING
11.8 RADIATION INVOLVING GASES AND VAPORS
Appendix A
Table A-1. Conversion factors for single terms.
Table A-2. Conversion factors for compound terms.
Appendix B
Fig. B-1. Dynamic (absolute) viscosity of liquids.
Fig. B-2. Kinematic viscosity of liquids.Specific gravity (S) values apply at 70 F or 21.4 C.
Fig. B-3. Ratio of steam thermal conductivity k to the value k1, at oneatmosphere and the same pressure.
Figure B-4. Generalized Correlation Chart of the Dynamic Viscosity of
Table B-1 (SI). Property values of metals.
Table B-2 (SI). Property values of nonmetals
Table B-3 (SI). Property values of liquids in a saturated state
Table B-4 (SI). Property values of gases at atmospheric pressure.
Table B-1 (SI). Property values of metals.
Table B-2 (Engl.). Property values of nonmetals.
Table B-3 (Engl.). Property values of liquids in a saturated state.
Table B-4 (Engl.). Property values of gases at atmospheric pressure
Table B-5 (Engl.). Critical constants and molecular weights of gases.
Index