Hydrology and Data Processing
1
2020-2021
03005190
Hydraulics, Water Resources and Environment
Portuguese
English
Face-to-face
SEMESTRIAL
6.0
Elective
3rd Cycle Studies
Recommended Prerequisites
Training required in Numerical Methods, Statistical Methods, Hydraulics and Hydrology.
Teaching Methods
Lectures on theoretical aspects, presentation and discussion of examples of practical application, resolution of problems, and autonomous resolution of problems (by students). Tutorial classes for practical work. The course evaluation consists of the final exam, with a weight of 60%, and problem-solving and practical work, with a weight of 40% of the final mark.
Learning Outcomes
The objectives of this course are: to provide students with knowledge on hydrologic modeling techniques, for the analysis of available water resources, relevant to the identification of pressures on water resources and the protection and sustainable management and, in this context, also promote the acquisition of knowledge of specialized methodologies in the treatment and analysis of hydrological data.
It is intended that, in relation to the topics, students develop skills of independent learning and critical thinking, and analysis and synthesis, focusing on the practical application of theoretical knowledge to enable the resolution of problems.
Work Placement(s)
NoSyllabus
1. Concepts and techniques of treatment and analysis of hydrologic data. Conventional and unconventional methods. Variability in time series. Trend and seasonality. Statistics of extreme maximum and minimum flow rates applied to precipitation and runoff.
2. Concepts and techniques for hydrological modelling. Deterministic and stochastic processes models.
3. Applications to the design of hydraulic works and the planning and management of water resources.
Head Lecturer(s)
Maria Isabel Mendes Leal Pereira Pedroso de Lima
Assessment Methods
Assessment
Resolution Problems: 40.0%
Exam: 60.0%
Bibliography
Beven, K.J. 2000. Rainfall-Runoff Modelling – The Primer. John Wiley & Sons, Inc., New York.
Chow, V.T., Maidment, D.R. & Mays, L.W., 1988. Applied Hydrology. McGraw-Hill, Singapura.
Maidment, D.R. (Ed.), 1993. Handbook of Hydrology. John Wiley & Sons, Inc., New York.
Tucci, C.E.M., 1998. Modelos hidrológicos. Universidade UFRGS e ABRH, Porto Alegre.
Beirlant, J., Goegebeur, Y., Segers, J. and Teugels, J. (2004). Statistics of Extremes: Theory and Applications. Wiley, New York.
Reiss, R.-D. and Thomas, M. 2001. Statistical Analysis of Extreme Values, with Applications to Insurance, Finance, Hydrology and other Fields. 2ª edição. Birkhauser. Verlag.
Karlin, S. & Taylor, H.M., 1998. An Introduction to Stochastic Modeling, Third Edition, Academic Press.
Tijms, H.C., 2003. A First Course in Stochastic Models. Wiley.
Singh, V.P. and Frevert, D.K., editors, 2002. Mathematical Modeling of Small Watershed Hydrology and Applications. Water Resources Publications, Littleton, Colorado, 950 pp.