Engineering Design and Optimization of Thermofluid Systems

Name: Engineering Design and Optimization of Thermofluid Systems
Brand: Unknown
SKU: 9781119701606
Price: 285.99 NZD
Availability: InStock

By David S. K. Ting

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Summary

Engineering Design and Optimization of Thermofluid Systems is an accessible, practical textbook tailored for engineering students and professionals focusing on thermal system design. It covers core thermofluid principles along with design and optimisation techniques relevant to pumps, compressors, heat exchangers, HVAC, and power generation systems. The book introduces design fundamentals, engineering economics, and explores classical and modern optimisation methods such as calculus, Lagrange multipliers, and geometric programming. Through numerous examples and problems, it bridges theory with real-world applications, emphasising cost efficiency and performance improvements.
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Format: Hardback

$285⁹⁹

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Engineering Design and Optimization of Thermofluid Systems

$285⁹⁹

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This book is ideally suited for upper-level undergraduate and graduate students studying thermal systems design, as well as instructors and professional mechanical engineers seeking a comprehensive reference on thermofluid system design and optimisation.

Description

A practical and accessible introductory textbook that enables engineering students to design and optimize typical thermofluid systems.

Engineering Design and Optimization of Thermofluid Systems is designed to help students and professionals alike understand the design and optimization techniques used to create complex engineering systems that incorporate heat transfer, thermodynamics, fluid dynamics, and mass transfer. Designed for thermal systems design courses, this comprehensive textbook covers thermofluid theory, practical applications, and established techniques for improved performance, efficiency, and economy of thermofluid systems. Students gain a solid understanding of best practices for the design of pumps, compressors, heat exchangers, HVAC systems, power generation systems, and more.

Covering the material using a pragmatic, student-friendly approach, the text begins by introducing design, optimization, and engineering economics—with emphasis on the importance of engineering optimization in maximizing efficiency and minimizing cost. Subsequent chapters review representative thermofluid systems and devices and discuss basic mathematical models for describing thermofluid systems. Moving on to system simulation, students work with the classical calculus method, the Lagrange multiplier, canonical search methods, and geometric programming. Throughout the text, examples and practice problems integrate emerging industry technologies to show students how key concepts are applied in the real world. This well-balanced textbook:

Integrates underlying thermofluid principles, the fundamentals of engineering design, and a variety of optimization methods
Covers optimization techniques alongside thermofluid system theory
Provides readers best practices to follow on-the-job when designing thermofluid systems
Contains numerous tables, figures, examples, and problem sets

Emphasizing optimization techniques more than any other thermofluid system textbook available, Engineering Design and Optimization of Thermofluid Systems is the ideal textbook for upper-level undergraduate and graduate students and instructors in thermal systems design courses, and a valuable reference for professional mechanical engineers and researchers in the field.

Book Details

INFORMATION

ISBN: 9781119701606

Publisher: John Wiley & Sons Inc

Format: Hardback

Date Published: 06 May 2021

Country: United States

Imprint: John Wiley & Sons Inc

Audience: Professional and scholarly

DIMENSIONS

Spine width: 20.0mm

Width: 183.0mm

Height: 257.0mm

Weight: 703g

Pages: 272

Collections

David S. K. Ting Education & Reference Engineering, Technology & Agriculture Non-Fiction

About the Author

David S.K. Ting is a Professor of Mechanical, Automotive, and Materials Engineering at the University of Windsor, Ontario, Canada. He has taught over a dozen courses at UWindsor and is the founder of its Turbulence and Energy Laboratory. He has co-authored over 140 journal papers, authored 3 textbooks and co-edited 10 volumes, is affiliated with ASHRAE, ASME, and SAE, and was named the 2018 Best Reviewer of the Year by ASME’s Heat Transfer Division.