Hidráulica e Engenharia Fluvial
Instance: 2004/2005 - 2S
Cycles of Study/Courses
Teaching language
Portuguese
Objectives
Natural study of the drainings in the rivers and canals. Deepening of slight knowledge on drainings with free surface. Deepening of the slight knowledge on erosion of the basins and the natural courses of water and the associated transport of sediments and on sizing systems and methods for protection of the erosion of the fluvial systems and the fluvial structures exposed to the direct action of the water courses.
Program
1st PART: ECOSSISTEMIC FRAIMING OF THE RIVERS AND FLUVIAL SYSTEMS. HYDRAULICAL OF THE DRAININGS IN NATURAL CANALS.
1 - Introduction
2 - Drainings with free surface, in the optics of the Fluvial Hydraulical
2nd PART: PRODUCTION, TRANSPORT AND RETENTION OF SEDIMENTS. FLUVIAL MORPHOLOGY. MORPHOLOGIC STABILITY AND ALTERATIONS. 3 - Characteristics of the sediments
4 - Erosion in ground
5 - Canals of mobile stream bed
6 - Solid transport
7 - Sedimentation in dams
8 - Fluvial Morphology
9 - Problematic of the formation of steady canals
10 - Stability of the stream bed of natural canals. Inclination of balance.
11 – Morphologic consequences of fluvial regularization workmanships
3rd PART: TYPES OF EROSION. PROTECTION MEASURES.
12 - General and located erosion
13 – Direct protection measures against erosion
14 - Indirect protection measures against erosion
Main Bibliography
1. Breusers, H. N. , Raudkivi, A.J., 1991
Scouring. IARH Hydraulic Structures Design Manual Nb. 2, A. A. Balkema, Rotterdam.
2. Calow, P. e Petts, G. E., 1994
The Rivers Handbook (Volume 2). Ed. Blackwell Science, Oxford.
3. Cardoso, A. H., 1998
Hidráulica Fluvial. Fundação Calouste Gulbenkian, Lisboa.
4. Henderson, 1966
Open Channel Flow. Macmillan Series in Civil Engineering, Macmillan Pub. Co., NewYork.
5. Lencastre, A., 1996
Hidráulica Geral. Edição do Autor, Lisboa.
6. Melville, B. W., Coleman, S. E., 2000
Bridge Scour. Water Resources Publications, LLC, USA.
7. Novais-Barbosa, J., 1986
Mecânica dos Fluidos e Hidráulica Geral (Volume 2). Porto Editora, Porto.
8. Przedwojski, B., Blazejewski, R., Pilarczyk, 1995
River Training Techniques. Fundamentals, Design and Applications. A. A. Balkema, Rotterdam.
9. Yang, C. T., 1996
Sediment Transport. Theory and Practice. Civil Engineering Series, McGraw-Hill, Singapore.
Complementary Bibliography
(Cx refere o capítulo com o qual a referência bibliográfica está mais directamente relacionada)
1. ASCE, 1996 (C2 e C11)
River Hydraulics. American Society of Civil Engineers, USA.
2. Chow, V. T., 1959 (C2)
Open Channel Hydraulics. Civil Engineering Series, McGraw-Hill, Singapore.
3. Escarameia, M., 1998 (C13)
River and Channel revetments. A Design Manual. Thomas Telford, London.
4. Hoffmans, G. J. , Verheij, H. J., 1997 (C3 a C7)
Scour Manual. A. A. Balkema, Rotterdam.
5. Lencastre, A., Franco, F. M., 1984 (C1)
Lições de Hidrologia. Universidade Nova de Lisboa, Lisboa.
6. Newson, M., 1997 (C1)
Land, Water and Development. Routledge, London.
7. Novak, P., Moffat, A. I. B., Nalluri, C., Narayanan, R., 1996 (C13)
Hydraulic Structures. E & FN Spon, UK.
8. Raudkivi, A. J., 1993 (C3 a C7)
Sedimentation. Exclusion and Removal of Sediment from Diverted Water. IARH Hydraulic Structures Design Manual Nb. 6, A. A. Balkema, Rotterdam.
9. USDT, 1973 (C2 e C12)
Hydraulics of Bridge Waterways. U. S. Department of Transportation, Federal Highway Administration, Washington.
Evaluation Type
Distributed evaluation without final exam
Observations
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Estimated working time out of classes: 3 hours.