This section focuses on heat transfer between a surface and a fluid. Laminar and turbulent flows.

Logarithmic Mean Temperature Difference calculations for sizing exchangers.

Reviewers often highlight its "lucid and easy" language, particularly for topics like extended surfaces and convective transfer. Where to Find It

| Chapter Title | Topics Covered | | :--- | :--- | | | Basic laws and concepts of heat transfer, including conduction, convection, and radiation | | Heat Conduction in Solids | Steady and unsteady state conduction, thermal resistance, and extended surfaces (fins) | | Thermal Radiation | Blackbody radiation, Kirchhoff's law, view factors, and radiation exchange between surfaces | | Principles of Fluid Flow | Fundamental fluid mechanics concepts necessary for understanding convective heat transfer | | Heat Transfer by Forced Convection | Laminar and turbulent flow, boundary layer theory, and empirical correlations | | Heat Transfer by Natural Convection | Buoyancy-driven flow, Grashof number, and correlations for various geometries | | Heat Exchangers | Types of heat exchangers, LMTD method, effectiveness-NTU method, and design analysis | | Condensation and Boiling | Film-wise and drop-wise condensation, pool boiling, flow boiling, and critical heat flux | | Mass Transfer | An added chapter in the fourth edition covering the fundamentals of diffusion and convective mass transfer | | Answers & Appendix | Solutions to end-of-chapter problems and supplementary data |

The content is meticulously aligned with the curriculum of most engineering universities. Accessing the Book (PDF Considerations)

Boundary layer theory, laminar vs. turbulent flow over flat plates, and internal flows through circular pipes.

A: Absolutely. The GATE exam frequently picks numericals from Sukhatme’s fin problems and radiation network problems. However, combine it with K. Muralidhar for advanced GATE problems.

-NTU) method for parallel, counter, and cross-flow configurations. Finding a PDF or Reference Copy Legally