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AIR QUALITY AND CONTROL ENGINEERING

226101001

Description

1. Atmospheric pollution control engineering: introduction
2. Meteorology and atmospheric pollution. Pollutants dispersion in the atmosphere
3. Atmospheric chemistry
4. Dispersion modelling
5. Biologicpollutants. Aerobiology
6. Indoor air quality
7. Measurements of atmospheric pollutants. Surveillance networks
8. Pollution control mechanisms
9. Gaseous pollutants control technologies
10. Particulate matter control technologies
11. Legislation

Crédits ECTS

Langue d'enseignement

Español

Langue d'examen

Español

Langue des supports pédagogiques

Español

Acquis d'apprentissage fondamentaux

Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design, project, planning, management and operation in the fields of Environmental engineering.
(B1 - EEM - Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design, project, planning, management and operation in the fields of Environmental engineering. )
Understanding the necessary professional knowledge of a Master's degree in Environmental Engineering, and of the activities that can be carried out in the field of Environmental Engineering.
(B5 - EEM - Understanding the necessary professional knowledge of a Master's degree in Environmental Engineering, and of the activities that can be carried out in the field of Environmental Engineering.)

Acquis d'apprentissage terminaux

Identifying, formulating, analyzing and assessing complex and diverse Environmental Engineering projects.
(F2 - EEM - Identifying, formulating, analyzing and assessing complex and diverse Environmental Engineering projects.)
Creating sustainable solutions to practical and complex Environmental Engineering problems with critical awareness of the wider multidisciplinary context of engineering.
(F3 - EEM - Creating sustainable solutions to practical and complex Environmental Engineering problems with critical awareness of the wider multidisciplinary context of engineering.)
Formulate solutions to practical Environmental Engineering problems using multidisciplinary approaches
(F3b - EEM - Formulate solutions to practical Environmental Engineering problems using multidisciplinary approaches )
Integrating social, human, environmental, economic and technical normative and regulatory constraints over the entire life cycle in Environmental Engineering projects.
(F6 - EEM - Integrating social, human, environmental, economic and technical normative and regulatory constraints over the entire life cycle in Environmental Engineering projects. )
Effectively functioning in a team as a member and managing a team in an international, multidisciplinary, and multilingual context.
(F10 - EEM - Effectively functioning in a team as a member and managing a team in an international, multidisciplinary, and multilingual context.)
Leading or supporting innovation including process improvement and life-long learning.
(F12 - EEM - Leading or supporting innovation including process improvement and life-long learning.)
Ability to follow research developments in science and technology.
(F15 - EEM - Ability to follow research developments in science and technology. )
Ability to integrate information from different sources into practical application and research.
(F16 - EEM - Ability to integrate information from different sources into practical application and research.)

Catégorie de cours

Entité de gestion (faculté)