Capa do Livro Transport Phenomena for Engineering - Woodrow Nelson Lopes Roma

Transport Phenomena for Engineering - Woodrow Nelson Lopes Roma

422 words · 3 minutes reading time Exact Sciences/Engineering and technology Didactic Computer science Gastronomy

Transport Phenomena for Engineering

A Comprehensive Guide to Mass, Momentum, and Heat Transfer

In the field of engineering, transport phenomena is a fundamental concept that deals with the movement of mass, momentum, and heat. Understanding these phenomena is crucial for designing and optimizing various engineering systems, from chemical reactors to biomedical devices.

Why is Transport Phenomena Important?

Transport phenomena plays a vital role in numerous engineering applications, including:

  • Chemical engineering: Transport phenomena is essential for understanding and designing chemical processes, such as distillation, absorption, and fluidization.
  • Mechanical engineering: Transport phenomena is crucial for analyzing and designing heat transfer systems, such as heat exchangers, boilers, and condensers.
  • Civil engineering: Transport phenomena is important for studying and designing environmental systems, such as water treatment plants, wastewater treatment plants, and air pollution control systems.
  • Biomedical engineering: Transport phenomena is essential for understanding and designing biomedical devices, such as artificial organs, drug delivery systems, and tissue engineering scaffolds.

What does this book cover?

This comprehensive book provides a thorough understanding of transport phenomena, covering the fundamental principles and their applications in engineering. The book is divided into three parts:

  • Part I: Fundamentals of Transport Phenomena

    • This part introduces the basic concepts of mass, momentum, and heat transfer, including conservation laws, constitutive equations, and boundary conditions.
  • Part II: Applications of Transport Phenomena

    • This part explores the application of transport phenomena in various engineering fields, such as chemical engineering, mechanical engineering, civil engineering, and biomedical engineering.
  • Part III: Advanced Topics in Transport Phenomena

    • This part covers advanced topics, such as non-Newtonian fluids, multiphase flow, and radiative heat transfer.

Why should you read this book?

  • Comprehensive coverage: This book provides a comprehensive treatment of transport phenomena, covering both the fundamental principles and their applications in engineering.
  • Clear and concise explanations: The book is written in a clear and concise manner, making it easy to understand even for beginners.
  • Numerous examples and problems: The book includes numerous examples and problems to help readers apply the concepts they have learned.
  • Up-to-date references: The book includes up-to-date references to the latest research in transport phenomena.

Who is this book for?

This book is ideal for undergraduate and graduate students in engineering, as well as practicing engineers who want to deepen their understanding of transport phenomena.

Conclusion

Transport Phenomena for Engineering is a comprehensive and up-to-date textbook that provides a thorough understanding of transport phenomena and its applications in engineering. The book is essential for students and practicing engineers who want to master this fundamental concept.