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ISBN 10: 8122415024
ISBN 13: 9788122415025
Author: D. Sri nivasan
Undergraduate students in mechanical, chemical, and process engineering
Instructors seeking a student‑friendly textbook
Practitioners looking for a solid refresher on core heat transfer methods and applications
1. Introduction
The Objectives
Classification of Heat Flow Processes
2. Conduction
Concept of Conduction
Fourier's Law of Heat Conduction
Thermal Conductivity
Conduction of Heat Through a Solid of Constant Cross-Sectional Area
Compound Resistance in Series-Slab Geometry
Analogy Between Flow of Heat and Flow of Electricity
Heat Flow Through a Cylinder
Heat Flow Through a Sphere
Steady State Heat Transfer Problems – Application of the Transport Phenomena Approach
Heat Flow Through a Composite Cylinder Wall; Critical Thickness of Insulation
Heat Conduction with a Viscous Heat Source
The Two-Dimensional Heat Conduction Path
3. Film Coefficients
Conduction Through Liquids
4. Unsteady State Heat Conduction
Application of Molecular Transport Theory to the Unsteady State Heat Conduction
Solutions of the Unsteady State Equations
Unsteady State Transfer with Internal Generation of the Transferent Property
Numerical Method of Solving One-Dimensional Transient Conduction Problem
5. Convection
Application of Dimensional Analysis for Convection Equations for Forced Convection and Natural Convection
Heat Transfer from Extended Surfaces or Fins
Heat Transfer to Fluids in Streamline Flow Inside Tubes
Heat Transfer Accompanied by Change of Phase
Boiling or Evaporation Heat Transfer (Heat Transfer to Boiling Liquids)
6. Industrial Heat Exchange Equipment
Types of Heat Exchangers and Definitions
Capacity Ratio and Effectiveness: Capacity Ratio
Determination of Heat Exchanger Performance
The Log Mean Temperature Difference (LMTD)
Effectiveness-NTU Relationship
Illustration on the Economical Size of the Heat Exchanger (Use of the Chart NTU max vs. Effectiveness in Solving This Problem)
Mean Temperature Difference in Multi-Pass Heat Exchangers
7. Thermal Energy Transfer by Radiation
Nature of Radiation
Black-Body – The Ideal Radiation Receiver
Black-Body Radiation Laws
Net Radiant-Energy Transfer
Radiant Heat Transfer Coefficients
The Principles of Design of Industrial Furnaces
8. Evaporation
Factors Influencing the Evaporation Process
Once Through and Circulation Evaporator
Evaporator Capacity
Boiling Point Elevation and Duhring's Rule
Single and Multiple Effect Evaporation
The Occurrence of Heat Transfer in Evaporators
The Analysis and Performance Calculation of Multiple-Effect Evaporators
9. Review of Heat Transfer Principles
fundamental principles of heat transfer
scientific principles of heat transfer
kreith f principles of heat transfer
principles of heat transfer 8th edition
principles of heat transfer 7th edition
Tags: Sri nivasan, Heat Transfer