ENVIRONMENTAL CHEMISTRY
- Academic year
- 2024/2025 Syllabus of previous years
- Official course title
- CHIMICA DELL'AMBIENTE
- Course code
- CT0636 (AF:466597 AR:254950)
- Modality
- On campus classes
- ECTS credits
- 6 out of 12 of CHEMISTRY AND ECOLOGY FOR ENVIRONMENTAL ENGINEERING
- Degree level
- Bachelor's Degree Programme
- Educational sector code
- CHIM/12
- Period
- 1st Semester
- Course year
- 2
- Where
- VENEZIA
- Moodle
- Go to Moodle page
Contribution of the course to the overall degree programme goals
More specifically, the objective is to provide students with the necessary skills for understanding the chemical, physicochemical and biochemical processes at the basis of matter transformations in both living organisms and environmental matrices, thus providing the basics needed to assess and evaluate the functioning of the environment. The course will also provide students with the necessary skills for understanding the dynamic (primary and secondary sources, transport, transformation and ultimate fate) of chemicals occurring in the environment. Special attention will be devoted to persistent, toxic and bioaccumulative substances and materials.
Expected learning outcomes
The student will acquire the knowledge and understanding of the matter transformation processes in both environmental matrices (air, water and soil) and living organisms, deepening the knowledge on the energy and matter cycles, the structural organization at molecular level of animal and vegetable organisms as well as the most important chemical functions for life. Student will also acquire the knowledge and understanding of chemical and chemical-physical properties of main classes of environmental hazardous chemicals, chemodynamic, chemical aspects of environmental changes at local-to-global scales.
Ability to apply knowledge and understanding
The student will acquire the ability to assess and evaluate the chemical, physicochemical and biochemical processes at the basis of transformation of the matter in both living organisms and environmental matrices. The student will also acquire the ability to assess quantitatively the occurrence and behavior of chemical substances in the environment,
Autonomy of judgment
The student will acquire independent judgment on identification and evaluation of the most relevant chemical, physicochemical and biochemical processes for the functioning of the environment, and on the evaluation of exposure to environmental chemicals by the integrated knowledge concerning their input, behavior and effects.
Communication skills
The student will acquire adequate skills for oral and written communication, supported by appropriate terminology, of the fundamental aspects related to the chemical, physicochemical and biochemical processes at the basis of matter transformations in both living organisms and environmental matrices, and of the occurrence and behavior of environmental chemicals.
Learning ability
The student will acquire the ability to use the scientific method as working tool.
Pre-requirements
Contents
More specifically, the following topics will be addressed.
Environmental chemistry of natural processes. Aquatic environment: water properties, physical and chemical composition of natural waters, hydrolysis, acid-base, redox, complexation and chelation reactions; alkalinity and hardness of water, nutrients and eutrophication.
Characteristics and role of solid and colloidal particles in natural waters. Geosphere and soil chemistry: chemical composition and physicochemical processes in soils: acid-base and ion exchange reactions; macro- and micro-nutrients and absorption and biodegradation processes of organic matter.
Atmosphere and chemistry of the atmosphere: energy and matter transfers, chemical composition and physicochemical processes in the atmosphere; Chemical reactions in the environment catalyzed by microorganisms (biogeochemical cycles of the main elements i.e., carbon, nitrogen, sulfur, phosphorus), Chemical contaminants of the PBT (Persistent, Bioaccumulative, Toxic) type in air, waters and soil, partitioning of chemicals among environmental media and bioaccumulation.
Referral texts
Slides presented by the teacher and made available in the Moodle platform.
Stanley E. Manahan, Environmental Chemistry, Lewis Publisher, 2017.
Colin Baird & Michael Cann, Chimica Ambientale, Zanichelli, 2013.
Assessment methods
Written exam will consist of 4 open questions concerning course subjects and 2 exercises.
Teaching methods
Teaching language
Type of exam
2030 Agenda for Sustainable Development Goals
This subject deals with topics related to the macro-area "Natural capital and environmental quality" and contributes to the achievement of one or more goals of U. N. Agenda for Sustainable Development