Unit APPLIED AND ENVIRONMENTAL MINERALOGY

Course

Geology for energy resources

Study-unit Code

A002118

Curriculum

In all curricula

Teacher

Azzurra Zucchini

Teachers

Azzurra Zucchini

Hours

52 ore - Azzurra Zucchini

CFU

Course Regulation

Coorte 2024

Offered

2025/26

Learning activities

Affine/integrativa

Area

Attività formative affini o integrative

Academic discipline

GEO/06

Type of study-unit

Opzionale (Optional)

Type of learning activities

Attività formativa monodisciplinare

Language of instruction

English

Contents

The course will introduce the fundamental concepts of mineralogy as a basis for characterizing and interpreting natural and anthropogenic processes with environmental implications.
1. Secondary raw materials.
Industrial processes, by-products, and secondary raw materials.
Case studies: cement and ceramic industry. Fly and bottom ash from coal, biomass and municipal solid wastes. Physico-chemical characterization Toxic potential and strategy for reuse.
2. Micro and meso porous materials.
Clays and zeolites. Crystal structure, crystal chemistry, absorption properties, ion-exchange properties, catalysis. Their use in environmental and industrial applications.
3. Hazardous minerals in nature and in working places.
Asbestos, free silica. Environmental monitoring, assessment, mineral quantification, disposal.
4. Mineral dust.
Origin and characterization. Implications for the paleoclimatic and environmental reconstructions through investigations of mineral dust entrapped in polar ice.
5. Carbon Capture and Storage (CCS).
State-of-the-art methods for CO2 capture, transport, and storage with a focus on mineral carbonation as a novel method for safe and permanent CO2 sequestration. Reactions of CO2 with calcium/magnesium oxides/hydroxides towards the formation of stable carbonate material.

Reference texts

Material provided by the teacher.

Educational objectives

Knowledge of the fundamental concepts of mineralogy as a basis for characterizing and interpreting natural and anthropogenic processes, with implications for the environment.

Prerequisites

Basic concepts of mineralogy and geochemistry

Teaching methods

frontal lessons

Other information

Learning verification modality

Oral examination which will include questions concerning the course and/or personal work to be presented in the exam session related to an in-depth study of the topics covered during the course.

Extended program

Minerals are the main repositories of chemical elements in Earth and they are the main sources of elements needed for the development of civilization as well as of contaminating and polluting elements. The elements are released from minerals through natural processes (Eg: chemical weathering) and anthropogenic activities (Es: mining and energy production, agriculture, industrial activities, and careless waste disposal). Minerals are of fundamental importance in the cycle of elements because their storage or release from primary minerals in crustal rocks is related to structural and compositional transformations in response to physical, chemical and biological processes that produce secondary minerals and soils, as well as gaseous emissions into the atmosphere, with a strong impact on the health of the environment and millions of people. On the other hand, minerals can represent unparalleled materials to solve increasingly pressing problems such as CO2 storage (mineral carbonation) or CH4 (clathrates), as well as to reduce different types of waste and convert them into secondary products.
The course will introduce the fundamental concepts of mineralogy as a basis for characterizing and interpreting natural and anthropogenic processes with environmental implications.
Case studies:
1. Secondary raw materials.
Industrial processes, by-products, and secondary raw materials.
Case studies: cement and ceramic industry. Fly and bottom ash from coal, biomass and municipal solid wastes. Physico-chemical characterization Toxic potential and strategy for reuse
2. Micro- and meso-porous materials.
Clays, zeolites, clathrates. Crystal structure, crystal chemistry, absorption properties, ion-exchange properties, catalysis. Their use in environmental and industrial applications
3. Hazardous minerals in nature and in working places.
Asbestos, free silica. Environmental monitoring, assessment, mineral quantification, disposal.
4. Mineral dust.
Origin and characterization. Implications for the paleoclimatic and environmental reconstructions through investigations of mineral dust entrapped in polar ice.
5. Carbon Capture and Storage (CCS).
State-of-the-art methods for CO2 capture, transport, and storage with a focus on mineral carbonation as a novel method for safe and permanent CO2 sequestration. Reactions of CO2 with calcium/magnesium oxides/hydroxides towards the formation of stable carbonate material.
The principles of the main analytical methodologies needed to study minerals, such as X-ray powder diffraction, X-ray fluorescence, Raman and IR spectroscopy, and electron microscopy, will also be provided.

Obiettivi Agenda 2030 per lo sviluppo sostenibile

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