Boundary Layer Flow over Elastic Surfaces

Compliant Surfaces and Combined Methods for Marine Vessel Drag Reduction

Nonfiction, Science & Nature, Science, Physics, Mechanics, Technology, Engineering
Cover of the book Boundary Layer Flow over Elastic Surfaces by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee, Elsevier Science
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Viktor V Babenko, Ho-Hwan Chun, Inwon Lee ISBN: 9780123948212
Publisher: Elsevier Science Publication: September 29, 2012
Imprint: Butterworth-Heinemann Language: English
Author: Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
ISBN: 9780123948212
Publisher: Elsevier Science
Publication: September 29, 2012
Imprint: Butterworth-Heinemann
Language: English

While other methods of drag reduction are well-known in marine R&D and ship design environments worldwide, compliant coating drag reduction remains less well-known and poorly understood. This important book presents cutting-edge techniques and findings from research sources not generally accessible by Western researchers and engineers, aiding the application and further development of this potentially important technology.

Beginning with an introduction to drag reduction that places the authors’ work on elastic surfaces and combined techniques in context, the book moves on to provide a comprehensive study of drag reduction through elastic coating with both flow and material properties considered. Coverage includes:

  • Experimental findings around coherent vortical structures (CVS) in turbulent boundary layers and methods of controlling them
  • Static and dynamic mechanical characteristics of elastic composite coatings, as well as new techniques and devices developed for their measurement
  • Combined methods of flow control and drag reduction, including the effect of injection of polymer solutions, elastic coatings and generated longitudinal vortical structures on hydrodynamic resistance

Intended as a reference for senior engineers and researchers concerned with the drag reduction and the dynamics of turbulent boundary layer flows, Boundary Layer Flow over Elastic Surfaces provides a unique source of information on compliant surface drag reduction and the experimental techniques around it that have shown measurable and repeatable improvements over recent years.

This compilation of research findings and new techniques developed for measurement will aid R&D engineers, naval architects and senior designers in their quest to achieve drag reductions that will deliver significant efficiency savings.

  • Unique source of information on compliant surface drag reduction—an important area of technology with practical application to ships—from otherwise inaccessible research studies
  • Updates the knowledge-base on boundary layer flow and surface friction reduction, critical topics in the global quest for increased ship efficiency and fuel economy
  • Reveals new techniques and devices developed for measurement and provides a comprehensive study of drag reduction through elastic coating with both flow and material properties covered
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

While other methods of drag reduction are well-known in marine R&D and ship design environments worldwide, compliant coating drag reduction remains less well-known and poorly understood. This important book presents cutting-edge techniques and findings from research sources not generally accessible by Western researchers and engineers, aiding the application and further development of this potentially important technology.

Beginning with an introduction to drag reduction that places the authors’ work on elastic surfaces and combined techniques in context, the book moves on to provide a comprehensive study of drag reduction through elastic coating with both flow and material properties considered. Coverage includes:

Intended as a reference for senior engineers and researchers concerned with the drag reduction and the dynamics of turbulent boundary layer flows, Boundary Layer Flow over Elastic Surfaces provides a unique source of information on compliant surface drag reduction and the experimental techniques around it that have shown measurable and repeatable improvements over recent years.

This compilation of research findings and new techniques developed for measurement will aid R&D engineers, naval architects and senior designers in their quest to achieve drag reductions that will deliver significant efficiency savings.

More books from Elsevier Science

Cover of the book Taxonomy of Prokaryotes by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Trends, Discovery, and People in the Digital Age by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book MIMO Wireless Networks by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Service Life Prediction of Polymers and Plastics Exposed to Outdoor Weathering by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book The Definitive Guide to ARM® Cortex®-M0 and Cortex-M0+ Processors by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Quantitative Human Physiology by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Operating System Forensics by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Statistical Parametric Mapping: The Analysis of Functional Brain Images by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Claudins by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Advances in Agronomy by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Advances in Fuel Cells by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Periodic Operation of Chemical Reactors by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Rehabilitation Robotics by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Eleventh Hour Network+ by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
Cover of the book Compendium of Trace Metals and Marine Biota by Viktor V Babenko, Ho-Hwan Chun, Inwon Lee
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy