Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
---|---|---|---|---|---|
Searching... | 30000004803916 | TC537 S33 1994 | Open Access Book | Book | Searching... |
Searching... | 30000004533968 | TC537 S33 1994 | Open Access Book | Book | Searching... |
On Order
Summary
Summary
Water and ground bioengineering techniques combine the expertise of civil engineers, landscape architects, botanists and ecologists, and increasingly are being used to protect and restore the natural environment.
This practical handbook shows how vegetation can be used for the protection, stabilisation and ecological enhancement of riverbanks and shores. It covers a range of techniques from wholly vegetative 'soft' techniques to 'semi-hard' or composite structures with vegetative inclusions. A chapter on bioengineering techniques in earth dam and floodbank construction is also included. Together with its companion book, Ground Bioengineering Techniques , this handbook on water bioengineering provides a rare opportunity to gain insight into the approach of its chief proponents--Professor H.M. Schiechtl and his colleague, Dr R. Stern--in the use of vegetation for the engineering and ecological and visual enhancement of waterways and shorelines.
Water Bioengineering Techniques will be of interest to geotechnical engineers, botanists, ecologists and to those concerned with landscape planning, land and catchment management.
Author Notes
C. Nalluri is Reader in hydraulic engineering at the University of Newcastle upon Tyne and Visiting Professor at the University of Los Andes, Colombia, and at the University of Kiel, Germany. R. E. Featherstone was formerly Senior Lecturer in hydraulic engineering at the University of Newcastle upon Tyne. New material has been contributed by Professor Juan Saldarriaga, of the University of Los Andes, Colombia and Visiting Professor at Newcastle University.
Table of Contents
Preface to Fourth Edition |
Chapter 1 Properties of Fluids |
Chapter 2 Fluid Statics |
Chapter 3 Fluid Flow Concepts and Measurements |
Chapter 4 Flow of Incompressible Fluids in Pipelines |
Chapter 5 Pipe Network Analysis |
Chapter 6 Pump-pipeline System Analysis and Design |
Chapter 7 Boundary Layers on Flat Plates and in Ducts |
Chapter 8 Steady Flow in Open Channels |
Chapter 9 Dimensional Analysis, Similitude and Hydraulic Models |
Chapter 10 Ideal Fluid Flow and Curvilinear Flow |
Chapter 11 Gradually Varied Unsteady Flow from Reservoirs |
Chapter 12 Mass Oscillations and Pressure Transients in Pipelines |
Chapter 13 Unsteady Flow in Channels |
Chapter 14 Uniform in Loose-boundary Channels |
Chapter 15 Hydraulic Structures |
Answers |
Index |
Conversion Table |