Fundamentals of Heat and Mass Transfer (8th Edition)

Authors: Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine
Publisher: Wiley (2017) · Language: English · ISBN-13: 978-1119337676

Overview

Fundamentals of Heat and Mass Transfer (8th Edition) is the definitive resource for understanding the core principles and applications of heat transfer and mass transport in engineering systems. Written by leading experts in the field, this textbook delivers a clear, rigorous, and methodical approach to thermal sciences, emphasizing both the theoretical foundation and real-world engineering applications.

This edition integrates modern computational tools, experimental data, and updated examples reflecting current industrial and research practices. Designed for both undergraduate and graduate students, it equips learners with the skills to analyze, design, and optimize thermal systems across a range of engineering disciplines.

What You’ll Learn

1. Fundamentals of Heat Transfer

Develop a strong grasp of the three modes of heat transfer—conduction, convection, and radiation—and their governing physical laws, equations, and boundary conditions.

2. Conduction Analysis

Learn steady-state and transient conduction solutions in one, two, and three dimensions using analytical, numerical, and graphical methods.

3. Convective Heat Transfer

Understand forced and natural convection phenomena in internal and external flows, including empirical correlations, dimensional analysis, and practical engineering applications.

4. Thermal Radiation

Explore radiation heat transfer principles, view factors, blackbody radiation, and surface emissivity—essential for thermal design and analysis.

5. Heat Exchangers and Design Applications

Study the design, operation, and performance evaluation of heat exchangers commonly used in industrial systems, such as condensers, boilers, and air coolers.

6. Mass Transfer

Master the fundamentals of mass diffusion and convection, understanding analogies between heat, mass, and momentum transfer for multi-physics problem-solving.

Why This Book Matters

Fundamentals of Heat and Mass Transfer remains the gold standard for thermal sciences education, combining mathematical rigor with engineering practicality. It provides a comprehensive framework that allows students to transition from theoretical understanding to applied problem-solving confidently.

This edition introduces modern topics such as computational modeling, microscale heat transfer, and enhanced heat transfer techniques—ensuring relevance to emerging technologies and advanced research.

Who Should Read This Book

• Undergraduate Students in mechanical, chemical, or aerospace engineering studying heat and mass transfer.

• Graduate Students specializing in thermal sciences, energy systems, or process engineering.

• Professional Engineers designing or analyzing thermal systems and heat exchangers.

• Educators and Researchers seeking a reliable reference for teaching or advanced study.

Key Topics Covered

• Conduction, convection, and radiation fundamentals

• Steady and transient conduction analysis

• Boundary layer theory and convective correlations

• Radiation exchange between surfaces

• Heat exchanger design and effectiveness–NTU method

• Boiling, condensation, and phase-change heat transfer

• Mass diffusion and convection

• Computational methods and numerical modeling of heat transfer

• Real-world engineering examples and case studies

Conclusion

Fundamentals of Heat and Mass Transfer (8th Edition) provides an unmatched combination of theory, analysis, and engineering application. With its structured presentation, updated examples, and focus on problem-solving, it equips readers with the technical proficiency required to design efficient, reliable thermal systems.

Whether used for coursework or professional reference, Incropera and DeWitt’s work continues to be the cornerstone of thermal and transport phenomena education, inspiring generations of engineers in mastering the science of energy transfer.