SISMIC, VOLCANIC RISK AND CIVIL PROTECTION PLANS

Degree course: 
Corso di First cycle degree in ENGINEERING FOR WORK AND ENVIRONMENT SAFETY
Academic year when starting the degree: 
2019/2020
Year: 
1
Academic year in which the course will be held: 
2019/2020
Course type: 
Supplementary compulsory subjects
Credits: 
6
Period: 
Second semester
Standard lectures hours: 
48
Detail of lecture’s hours: 
Lesson (48 hours)
Requirements: 

The student must have knowledge of the theoretical bases of mathematics, chemistry, physics and geology.

Final Examination: 
Orale

ASSESSMENT MODE
Verification of learning will be through an oral final exam.
Assessment of learning involves the assignment of a final vote.
REQUIRED SKILLS
The student will be required to:
- Participate actively in the course by following the topics discussed on the deliveries, on the recommended texts, on the reference websites;
- Understand vocabulary and scientific concepts and their application in discussions during the course, written assignments and oral exams;
- Knowledge of location, magnitude, macroseismic intensity, tectonic style and structural setting of the seismic events discussed in the course;
- Knowledge the name, location, type of volcanism and geological problems of the volcanoes treated in the course;
- Have the ability to redraw the diagrams and sketches , and to properly comment on the images, that have been presented in the course.

Assessment: 
Voto Finale

The purpose of the course is to allow the student to acquire knowledge, skills and skills in identification and management:
- the types of geological, seismic and volcanic hazards;
- actions to mitigate disasters related to seismic and volcanic activity.
The student will experience the materials, methods and tools of Geology for the Environment, especially from the point of view of the assessment of the stability and safety of a site from the seismic and volcanic point of view. It will be able to appreciate A) variability and scale factors in natural processes associated with seismicity and vulcanism, and B) vulnerability of the physical environment to seismic and volcanic phenomena. C) geological criteria for the localization of a facility at risk of major accident with respect to possible impacts of earthquakes and volcanic eruptions and methodological implications; and (D) the general principles governing civil protection plans in case of seismic and volcanic emergency.

Foundations of General Geology and Lithology: Physical State, Composition, Structure and Movements of Earth's Crust.

The core of the course is based on what is required internationally for the siting of nuclear power plants. Although very few facilities have an environmental impact and a risk comparable to those related to a nuclear installation, the path followed for the localization and design of these structures is in fact paradigmatic and methodologically correct for all situations considered in this course. Such an approach will allow you to have a complete view of the activities to be carried out. It will then be taken care of in the course to provide all the elements necessary to select the type of analysis that best suits the work that needs to be analyzed or the type of hazard that one has to deal with, including the physical context in which the site is located, and its cost.

The course is structured through a Seismic Risk Module and a Vulcan Risk Module.

Introduction to Seismic Risk, Expectations, Organization; Rock deformations and seismicity. Crostic dynamics: continental and oceanic crust, plate tectonics, oceanic dorsal, continental drift, subduction. Basic tectonic structures: fractures, foils, faults and creases. The association of elemental tectonic structures. The tectonic style of a territory. Vertical movements of the soil. Active tattooing. Measure and localization of earthquakes: epicenter, hypocentre, magnitude and macrosismic intensity, focal mechanism.

Structural geology and earthquakes, seismicity in tectonic compressive, relaxing and translucent environment. Case studies globally and in Italy; the earthquake of May 2012 in the Po Valley; the April 2009 earthquake in L'Aquila.
ESI2007 scale and the environmental effects of earthquakes; paleosismicity; surface fagulation, magnitude, intensity, breaking length and rejection ratio; geological criteria for assessing seismicity. Probabilistic and deterministic methods for the evaluation of the Seismic Hazard.
Civil Protection and Seismic Risk.

Introduction to Vulcanic Risks, Expectations, Organization; General aspects of volcanic hazard; Distribution of active volcanoes and geodynamic environments; Magma Generation; Magma chemical and petrographic composition. Physico-chemical parameters and eruptive style: Viscosity, temperature, gas content; Explosivity of a magma; Frequency and size of an eruption; Eruptive mechanisms; Products of volcanic eruptions; Types of Volcanic Buildings.

Dangerousness and volcanic risk: Hazard, Vulnerability, Risk, Natural Disaster; Monitoring; Risk mitigation.
Types of Volcanic Hazard: Volcanic Earthquakes; Lava flats and lava duomo; Pyroclastic recess and ballistic projection; Flow and pyroclastic surges; Calderic and structural collages; Lahar and gravitational flows; Volcanic gas; Tsunami.
Volcanic monitoring and short-term forecast: Precursors of an eruption; Monitoring soil deformations; Seismic monitoring; Geochemical monitoring of fluids; Monitoring for visual observation.
Volcanic Hazard Zoning and Long-Term Forecast

The purpose of the course is to allow the student to acquire knowledge, skills and abilities in the identification and management:
- the types of geological, seismic and volcanic hazards;
- actions to mitigate disasters related to seismic and volcanic activity.
The student will experiment with the materials, methods and tools of Geology for the Environment, in particular from the point of view of assessing the stability and security of a site from a seismic and volcanic point of view. Will be able to appreciate A) the variability and scale factors in natural processes connected with seismicity and volcanism, and B) the vulnerability of the physical environment with respect to seismic and volcanic phenomena. It will be required to learn C) the geological criteria for the location of a plant at risk of major accident with respect to the possible impacts of earthquakes and volcanic eruptions, and methodological implications, and D) the general principles that regulate the civil protection plans in case of seismic and volcanic emergency.

Prerequisites

The student must have knowledge of the theoretical bases of mathematics, chemistry, physics and geology.

Contents and program of the course

COURSE CONTENT

Fundamentals of General Geology and Litology: Physical state, composition, structure and movements of the earth's crust.

The core of the course is based on what is required, internationally, for sites for power electronuclear plants. Although very few works determine an environmental impact and a risk comparable to those related to an electronuclear power plant, the path followed for the localization and design of such structures is in fact paradigmatic and methodologically correct also for all the situations mentioned above. A similar approach will allow us to have a complete view of the activities to be carried out. The course will then provide all the necessary elements to select the type of analysis most appropriate to the work to be analyzed or to the type of hazard that must be addressed, including the physical context in which it falls and its cost.

The course is structured through a Seismic Risk Module and a Volcanic Risk Module.
The main topics discussed for the Seismic Risk Module are:
1. Methodological and conceptual approach;
2. Aspects related to the project earthquake: necessary data base. Methods for the calculation of the earthquake / s of reference for the project. Attenuation at the site and definition of the project earthquake. Paleoseismology and Seismic Landscape Concept;
3. Danger, vulnerability, risk, mitigation. Aspects of geological stability of the site linked to the earthquake: superficial faulting and liquefaction. Seismic hazard maps, Zoning and seismic regulations.

The main topics discussed for the Volcanic Risk Module are:
1. Introduction to volcanism and characterization of products of volcanic eruptions;
2. Danger, risk, mitigation and prediction. Types of volcanic hazards. Monitoring and short-term prediction. Volcanic hazard zoning and long-term prediction.

Detailed development of the Course:

PART I

Introduction to Seismic Risk, expectations, organization; The deformations of the rocks and the seismicity. Overview of crustal dynamics: continental and oceanic crust, plate tectonics, oceanic ridges, continental drift, subduction. The elementary tectonic structures: fractures, foliations, faults and folds. The association of elementary tectonic structures. The tectonic style of a territory. Vertical movements of the ground. Active tectonics. Measurement and location of earthquakes: epicenter, hypocenter, magnitude and macroseismic intensity, focal mechanism.

PART II
Structural geology and earthquakes, seismicity in a tectonic compressive, relaxing and transcendent environment. Case studies at the global level and in Italy; the earthquake of May 2012 in the Po Valley; the earthquake of L'Aquila 2009, Amatrice 2016, Ischia 2017.
The ESI2007 scale and the environmental effects of earthquake

The material used during the lessons and exercises will be made available to the student on the e-learning platform.

RECOMMENDED TEXTS (all present in the Library - Como)
John P. Grotzinger, Thomas H. Jordan, Understanding Earth, Third Italian Edition on the Seventh American Edition, Media Book, cod. ISBN 978-8808-82123-2, p. 752, Zanichelli.
McCalpin, J. Paleoseismology, 2nd Edition, 2009, Academic Press, 848 p.
Yeats, Robert S.; Sieh, Kerry E .; Allen, Clarence R. The geology of earthquakes. New York: Oxford University Press, 1997, 568 p.
Giacometti L., Scandone R. Vulcans and Erections. Pitagora Editrice Bologna 2002
Rosi M., Papale P., Lupi L., Stopped M. All Vulcans. Mondatori Milano 2nd ed. 2003
Barberi F., Santacroce R., Carapezza ML. Hazardous earth. Editions ETS Pisa 2005
Scandone R., Giacometti L. Volcanology. Liguori Ed., Naples, 1998
Cortini, Scandone R. An Introduction to Vulcanology. Liguori Ed., Naples, 1987
Decker R., Decker B. Volcanoes. Freeman & amp; C ed., Oxford, 1990

INTERESTING SITES FOR INTEGRATION
National Institute of Geophysics and Vulcanology www.ingv.it
Civil Protection Vulcanic Risk www.protezionecivile.it
International Association of Vulcanology and Geochemistry www.IAVCEI.org
Association of Vulcanological Observers www.wovo.org
Italian Association of Vulcanology www.aivulc.it
Didactic website http://vulcan.fis.uniroma3.it
Didactic website http://volcanoes.usgs.gov
Didactic website www.geology.sdsu.edu/how_volcanoes_work

Convenzionale

The course will take place with frontal classroom lectures.

I am available to meet the students in Como and Varese, please send me an email