This book presents the core principles of heat and mass transfer in a clear and structured manner, making it ideal for engineering courses across various disciplines. Covering both fundamental and advanced concepts, it systematically explores conduction, convection, and radiation for heat transfer, as well as mass diffusion and convection for mass transfer. The first eleven chapters focus on heat transfer, addressing steady-state and transient conduction, forced and natural convection, phase change phenomena, heat exchanger design, and thermal radiation. The final chapter introduces mass transfer to maintain thematic continuity. Throughout the book, theoretical explanations are complemented by practical applications, numerical methods, and numerous solved and proposed problems—many drawn from real exam questions. With over 30 years of teaching experience, the first author brings deep expertise to the subject, ensuring a pedagogical approach that supports both learning and problem-solving skills.
Introduction: Heat and mass transfer modes.- Steady state one-dimensional
heat conduction.- Steady-state multidimensional heat conduction.- Heat
conduction in transient regime.- External forced convection.- Internal forced
convection.- Natural convection.- Condensation and boiling.- Heat exchangers.- Fundamentals
of thermal radiation.- Applied thermal radiation.- Mass transfer.
José Roberto Simões Moreira is a professor at the Escola Politécnica of the University of São Paulo (USP) specializing in Thermal Engineering and Energy. His research focuses on liquid-vapor phase change, absorption refrigeration, supersonic flow for gas separation, solar energy, solar fuels, hydrogen production, and alternative energy transformation systems. He also coordinates the SISEA- Renewable and Alternative Energy Systems Lab. at USP.
Elí Wilfredo Zavaleta Aguilar is an assistant professor at the Institute of Sciences and Engineering at São Paulo State University (UNESP). His research focuses on solar energy, including concentrated solar energy, ammonia-water absorption refrigeration cycles, and solar photovoltaic applications.
