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Principles of river engineering: the non-tidal alluvial river
Jansen, P.; van Bendegom, L.; Van den Berg, J.H.; de Vries, M.B.; Zanen, A. (Ed.) (1979). Principles of river engineering: the non-tidal alluvial river. Reprinted 2010. VSSD: Delft. ISBN 978-90-6562-146-7. xv, 509 pp.
Related to:
Jansen, P.; van Bendegom, L.; Van den Berg, J.H.; de Vries, M.B.; Zanen, A. (Ed.) (1979). Principles of river engineering: the non-tidal alluvial river. Pitman: London. ISBN 0-273-01139-1. xv, 509 pp., more
Jansen, P.; van Bendegom, L.; Van den Berg, J.H.; de Vries, M.B.; Zanen, A. (Ed.) (1994). Principles of river engineering: the non-tidal alluvial river. Delftse Uitgevers Maatschappij: Delft. ISBN 90-6562-146-6. xv, 509 pp., more
Principles of river engineering: the non-tidal alluvial river

Available in  Authors 
Document type: Training material

Keywords
    Engineering > River engineering
    Inflow > River discharge
    Levels > Water levels
    Mapping
    Models > Mathematical models
    Models > Scale models
    Physics > Mechanics > Hydraulics
    River morphology
    Sediments
    Surveys
    Transport > Sediment transport
    Water bodies > Inland waters > Rivers
    Water movements
    Water quality

Authors  Top 
  • Jansen, P., editor
  • van Bendegom, L., editor
  • Van den Berg, J.H., editor, more
  • de Vries, M.B., editor, more
  • Zanen, A., editor

Abstract
    This systematic and integrated approach to the morphological and engineering problems of the alluvial river, initially presents hydrodynamic theories, measurements and model techniques; further it gives a comprehensive and systematic discussion of the possibilities of tackling river deficiences. Whilst the majority of the examples and cases cited by the authors are drawn from their experience with the Rivers Niger, Magdalena and Rhine, their aim is to give a comprehensive treatment of river engineering in general, rather than detailed information on any particular river system. The work derives from the experience of the authors at the Rijkswaterstaat (Public Works Department), Delft Hydraulics Laboratory, Delft University of Technology and Netherlands Engineering Consultants NEDECO. The ? rst four parts of the book cover the theoretical bases of river hydraulics, river surveys and river models, whilst the last part applies this theory and deals with the practical problems encountered by the engineer in designing and executing river works.

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