COASTAL HYDROLOGY |
Code
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20810166 |
Language
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ENG |
Type of certificate
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Profit certificate
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Module: COASTAL HYDROLOGY-COASTAL FLOWS
(objectives)
Coastal Hydrology - A course introduces the students to surface and subsurface hydrology and provides the modeling skills for solving practical problems dealing with water exchange at the costal boundary. This course is part of the master's degree program in "Sustainable Coastal and Ocean Engineering", whose objective is to train civil engineers with high professional qualification for development of coastal and marine infrastructures, with an increasing concern towards environmental protection and sustainable development under environmental changing conditions. Within this framework, the course aims to provide an in-depth knowledge of 1) the main physical processes involved in water cycle, 2) the fundamental issues related to water resources use, 3) the measurement and analysis of hydrologic data, 4) the hydrologic modeling of transport in aquifers and vadose zone, 5) the hydrologic modeling of surface processes at the catchment scale, contributing to water exchange across the coastal boundary and through the sea, and 6) the main criteria to develop a complex hydrological model, with specific focus on the interface with coastal and ocean environments.
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Code
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20810166-1 |
Language
|
ENG |
Type of certificate
|
Profit certificate
|
Credits
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6
|
Scientific Disciplinary Sector Code
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ICAR/02
|
Contact Hours
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54
|
Type of Activity
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Core compulsory activities
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Teacher
|
VOLPI ELENA
(syllabus)
1: Hydrology and global water cycle 2: Precipitation 3: Evapotranspiration 4: Runoff generation 5: Rainfall-runoff modeling 6: Flood routing 7: Estuaries and estuarine physics 8: Tidal analysis
(reference books)
Dingman, S.L. (2015). Physical Hydrology, Third Edition. Waveland Press, Long Grove, Illinois Kovalik Z., Luick J.L. (2019). MODERN THEORY AND PRACTICE OF TIDE ANALYSIS AND TIDAL POWER. Austides Consulting, Australia. Parker, B. B. (2007). Tidal analysis and prediction. NOAA
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
|
Evaluation methods
|
Oral exam
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Teacher
|
FIORI ALDO
(syllabus)
1. Water flow in saturated media; saturated and unsaturated media; conceptual model; types of aquifers; fundamental equations, solutions; scale problem; Dupuit approximation; regional scale equations 2. Water flow in saturated media: Regional-scale equations; boundary conditions; modeling protocol; Wells 3. Supply from wells; well hydraulics; Methods of estimating hydrogeological parameters; groundwater pumping tests; flow in unsaturated media: flow equations; pedofunctions; 4. Flow in unsaturated media: loss analysis; calculation of infiltration 5. Introduction to MODFLOW and MODELMUSE: installation, basic operation 6. Examples: coastal aquifer, boundary conditions: constant head, general head Boundary, packages: lateral recharge, rain, wells, river
(reference books)
Handsout by the lecturer
|
Dates of beginning and end of teaching activities
|
From to |
Delivery mode
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Traditional
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Attendance
|
not mandatory
|
Evaluation methods
|
Oral exam
|
Teacher
|
ROMANO ALESSANDRO
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Dates of beginning and end of teaching activities
|
From to |
Attendance
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not mandatory
|
|
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Module: COASTAL HYDROLOGY-COASTAL CONTAMINANTS
(objectives)
The course Coastal Hydrology - B is part of the master's degree program in "Sustainable Coastal and Ocean Engineering", whose objective is to train civil engineers with high professional qualification for development of coastal and marine infrastructures, with an increasing concern towards environmental protection and sustainable development under environmental changing conditions. Within this framework the course Coastal Hydrology - B aims at the developing of a new scientific and technological awareness in the field of water quality protection in complex coastal environments, characterized by increasing anthropogenic pressure and a dynamic equilibrium between fresh and salty water. The Students will be trained within a program focused in specific problems of coastal environments, such as the aquifers salinization and the contamination of environmental matrices. A depth knowledge in this field will be provided by studying 1) the interface dynamics between continental and marine waters; 2) the main sources of anthropogenic contamination in coastal environments; 3) the contaminants transport processes through the hydrological water cycle and the coastal interface; 4) the concepts of vulnerability of risk in coastal areas; 5) the main design techniques for the protection of surface, ground- and marine waters and the restoration of contaminated sites.
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Code
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20810166-2 |
Language
|
ENG |
Type of certificate
|
Profit certificate
|
Credits
|
6
|
Scientific Disciplinary Sector Code
|
ICAR/02
|
Contact Hours
|
54
|
Type of Activity
|
Core compulsory activities
|
Teacher
|
ZARLENGA ANTONIO
(syllabus)
1. Introduction to the contamination problem, Contaminant Classification 2. Basic transport mechanisms in GW - ADE 3. Introduction to reactive transport, Sorbing solutes 4. Multi-Phase Flow, NAPL 5. Remediation techniques
6. Coastal GW systems, seawater intrusion 7. Governing equation (variable density flow) 8. SWI approach, analytical solution, application examples 9. Land reclamation introduction and application example with SWI solutions
(reference books)
Contaminant Hydrogeology C.W. Fetter, Prentice Hall, Upper Saddle River, N.J., 1999. ISBN 10: 0137512155 / ISBN 13: 9780137512157
Coastal Hydrogeology J. Jiao, V. Post, Cambridge University Press, New York, NY, 2019 ISBN: 978-1-107-03059-6
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Dates of beginning and end of teaching activities
|
From to |
Delivery mode
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Traditional
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Attendance
|
not mandatory
|
Evaluation methods
|
Oral exam
|
|
|
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