Posted by **hill0** at May 4, 2018

English | 26 Apr. 2018 | ISBN: 3319755226 | 241 Pages | PDF (True) | 10.3 MB

Posted by **thingska** at April 12, 2017

English | 2015 | ISBN: 9789812873958, 9812873953 | 235 Pages | PDF | 12.59 MB

Posted by **tukotikko** at Nov. 25, 2015

2015 | 350 Pages | ISBN: 3319201034 | PDF | 4 MB

Posted by **enmoys** at May 27, 2014

2012 | 610 Pages | ISBN: 9400742363 | PDF | 114 MB

Posted by **bookwyrm** at Jan. 18, 2014

2012 | 610 Pages | ISBN: 9400742363 | PDF | 109 MB

Posted by **ms_ms2** at Sept. 13, 2008

296 pages | Springer; 1 edition (October 1, 2008) | ISBN: 1402085362 | PDF | 3 Mb

Posted by **Veslefrikk** at March 21, 2014

Publisher: Springer | ISBN 10: 1402040482 | 2005 | PDF | 332 pages | 8.2 MB

Posted by **avava** at May 15, 2011

Publisher: Springer | ISBN 10: 1402040482 | 2005 | PDF | 332 pages | 8.2 MB

Posted by **avava** at Jan. 26, 2011

Publisher: Springer | ISBN 10: 9400704119 | 2010 | PDF | 490 pages | 7.5 MB

Posted by **master9849** at July 19, 2009

Publisher: Springer | Pages: 288 | Publication Date: 2006-11-14 | ISBN: 1402050151 | PDF | 5MB

This textbook discusses the fundamental principles of sediment transport in the geophysical context of rivers and is intended as both a course textbook and as a guide for the practical engineer. We begin by describing phenomena such as bed load and suspension transport from a classical perspective by applying the mean wall shear stress approach while additionally incorporating a statistical description of the inherent wall shear stress fluctuations. Concepts from turbulent flow regime are introduced to address the limitations of the classical approach to various aspects of sediment transport, such as for example, the Newtonian description of dense suspensions, or the description of the self-organization processes for developing bed forms, or the prediction of transport in very rough bed conditions. In this context coherent structures and flow separation mechanisms are developed as important new elements, which allow using topological rules for the formulation of transport especially for developing bed forms. Since the most up-to-date research findings in the field are presented, this book serves as both a support in the formulation of academic research programs, and as a practical text for engineers seeking to simulate complex problems or special aspects of sediment transport. This book will therefore be of interest and of use to both students and to the professional scientist.