Overview

Turbulence in transportation occurs in the aerodynamics of vehicles, hydrodynamics of watercrafts, and combustion engines, amongst others. Turbulent flows can greatly affect the performance of vehicles, from air and water resistance, noise, and combustion quality - but it can also be exploited to improve the efficiency of the involved engineering operations. Understanding how turbulence effects occur within various transport modes can help engineers build better performing and safer vehicles, and overall improve transport networks. This book provides a timely update on turbulence research within transportation, and the exploitation of turbulent flow for more efficient transport, through aerodynamics, hydrodynamics and combustion engine improvement. The book starts with an introduction to the many scenarios in which flow turbulence can be further harnessed within transportation engineering. Later the book details selected latest applications of flow turbulence to enhance the efficiency of essential engineering operations in transport, in particular in aerodynamics and combustion engines. Flow Turbulence Engineering in Transport is a useful aid for new and experienced researchers and engineers working in thermofluids, especially those whose research involves turbulent flow. It offers a look at selected latest exploitations of flow turbulence in enhancing the efficiency of essential engineering operations in transport, highlighting the latest and future advancements in this field.

Full Product Details

Author:   David S-K. Ting (Professor, University of Windsor, Canada) ,  Jacqueline A. Stagner (Undergraduate Programs Coordinator, University of Windsor, Faculty of Engineering, Canada)
Publisher:   Institution of Engineering and Technology
Imprint:   Institution of Engineering and Technology
ISBN:  

9781837241897

ISBN 10:   1837241899
Pages:   324
Publication Date:   21 April 2026
Audience:   College/higher education ,  Professional and scholarly ,  Tertiary & Higher Education ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Chapter 1: Turbulence Energy Cascade: Relating Turbulent Scales with Vehicle Scales Chapter 2: Active Flow Control of an Airfoil in Turbulent Flow Chapter 3: Turbulent Ship Wakes Chapter 4: Turbulence in Transport Chapter 5: Flow, Turbulence, and Motorsports Chapter 6: Research on Cavity Wind Turbulence - Induced Noise of Automotive Sunroof Chapter 7: Turbulent Crosswind Aerodynamics for Railway Operations: Field Evidence, Modelling, and Design Methods Chapter 8: Advances in Flow Turbulence Engineering for Efficient and Sustainable Transport Systems: A Comprehensive Examination Chapter 9: Exploiting Turbulence to Enhance Spark-Ignition Engine Performance: On Premixed Turbulent Flame Acceleration Chapter 10: Turbulence Empowering Spark-Ignition Engine Combustion

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Author Information

David S-K. Ting is a professor at the University of Windsor, Canada, where he founded the Turbulence and Energy Laboratory. His research interests include the exploration of combustion, turbulence, convection heat transfer, and fluid-structure interactions. He has co/supervised over 90 research students primarily on energy, thermofluids, and sustainability for 28 years. He has authored five textbooks, coauthored 200 journal papers, and coedited 40 volumes. Jacqueline A. Stagner is the undergraduate programs coordinator in the Faculty of Engineering at the University of Windsor, Canada. She is a professional engineer with a PhD in Materials Science and Engineering. She supervises research students primarily in sustainable energy and living, in the Turbulence and Energy Laboratory. She has disseminated numerous journal articles in addition to coediting 20 volumes.

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