The course will be developed on three main areas: Hydraulic Maritime and Coastal Engineering, Marine Pollution and Marine ecosystem monitoring. In particular, they will address the following themes:prediction wave, action on the coasts, numerical models of simulation and forecasting, numerical models for the wave action on the morphology of the coast, wave river mouths interaction, analysis of the formation of coastal currents and their action on the coasts. The pollutant transport phenomena, numerical models for the transport of passive and chemically active substances in the coastal environment. The effects on the ecosystem as a result of input of pollutants, the creation of works, fluvial-marine system interactions, modeling and simulation of the dynamics of these ecosystems, interaction between coastal and ecosystem dynamics currents. The impact of Climate Change will be analyzed in the course focusing on the phenomenon of Sea Level Rise (SLR) correaltedd to the SDGs 13 of Agenda 2030.
The student at the end of the course will be able to analyze the sea wave data and using a Geographical Information System (QGIS or other cartography information system) to define the principal physical phenomes that can be involved in the propagation of sea state from deep water to shallow water. The principal rules and models to describe these phenomes are described in detail.
The arguments analyzed are strictly correlated to the Sustainable Developments Goals of Agenda 2030
The lesson will be done using power point presentations. The material showed during each lesson will be present also in “AulaWEB “of the course,
During the course different moments will be introduced to evaluate the comprehension using Wooclap test or similar procedure.
It is requested to produce some technical relations that will be discussed in the classroom to increase the communication and critical skills of the students.
Sea waves
Mechanics of wave motions. Wave and water level prediction. Effect of sea waves along the shoreline, numerical model to forecast the action of sea wave motion along the shoreline. Interaction of river mouths and the morphology of the shoreline. The numerical model to evaluate the shoreline currents and their effects on the shoreline and its morphology.
Sea pollution
Numerical and physical model to evaluate the dispersion of pollution on the surface and in the sea, with particular attention to the pollution from negative components for the coastal environment (plants and animals’ life in the sea).
Monitoring of maritime ecosystem
Model to evaluate the spread of pollution from natural and human stress on the sea. Model to analyze the effects on short and long time of the artificial structures on the maritime ecosystem.
The international laws on maritime area
The maritime laws in Europe and in United States will be analysed to evaluate the difference and the limits.
Coastal Engineering Manual USArmy
Shoreline Management Guidelines, 2017
PAINC report 121, 2014
For the students with learnig disorders (in italian DSA) it is possible to utilize specific modalities and supports that will be defined case-by-case in agreement with the delegate of the enginnering courses in the Committe for the Inclusion of Students with disabilites.
Ricevimento: The students can send a mail to myself to fix the appointment or to ask more information or explanation on the theme discussed during the lesson.
ANGELA CELESTE TARAMASSO (President)
GIORGIO ROTH
ANGELA MARIA TOMASONI (President Substitute)
https://courses.unige.it/10553/p/students-timetable
The final exam is oral, during the lesson the students compile different technical relations that will be evaluated during the period of lesson.
The student must demonstrate capacity of synthesis and knowledge of the different argument treated during the course
Students who have valid certification of physical or learning disabilities on file with the University and who wish to discuss possible accommodations or other circumstances regarding lectures, coursework and exams, should speak both with the instructor and with Prof. Federico Scarpa (federico.scarpa@unige.it), the disability liaison for the Engineering study programs.
The student must demonstrate capacity of synthesis and knowledge of the different arguments treated during the course.
