Environment Pollution

lenvi2012  2024-2025  Louvain-la-Neuve

Environment Pollution
7.00 credits
45.0 h + 30.0 h
Q2
Teacher(s)
Agnan Yannick; Gerin Patrick (coordinator);
Language
Prerequisites
.Background (bachelor level) in chemistry, physics and biology.
Main themes
The course aims at providing the students with a broad, multidisciplinary scientific background to approach environmental pollution and management problems (causes, consequences, remedies, influences of management practices). The objective of the course is to introduce students to a scientifically rigorous and critical approach of environmental problems and remediation solutions.
Learning outcomes

At the end of this learning unit, the student is able to :

1 At the end of this course, the student has acquired general knowledge in the field of environmental pollution. More specifically, facing a case study, (s)he is able to:
- Properly use the parameters (variables) and the units that characterize the environmental pollution;
- Describe, explain and predict the behaviour of the various forms of pollution in environmental systems or technological remediation processes, with the proper identification of the processes involved, based on their knowledge of the concerned physical, chemical or biological principles;
- Select or rank remediation technologies according to their relevance to the nature of the pollution.
After the seminar, the student is able to:
- Check the validity and relevance of claims in the environmental field, after seeking relevant scientific and technical arguments;
- Exploit and organize the pros and cons arguments, to take and defend his own position with respect to these claims;
- Communicate synthetically his position, both orally and in writing.
 
Content
1. Lectures
1. Part "Soil"
1. Soil pollution
  • Introduction to soils
  • Soil quality
  • Soil pollution management
  • Trace metal and pesticide soil pollution
2.Part "Air"
2. Air pollution
  • Introduction to air
  • Air quality
  • Air pollution impacts
  • Air pollution management
3. Other pollutions
  • Radioactive pollution
  • Light pollution
  • Electromagnetic pollution
  • Noise pollution
Part "Water & wastes"
4. Water pollution
  • Sources, mechanisms and symptoms of pollution in running water and lakes
  • Influence of pollution on living beings: oxygenation and deoxygenation, eutrophication
  • Measurement of water quality
  • Wastewater treatment
  • Prevention of water pollution
5. Solid wastes
  • Characterization and collection of solid wastes
  • Selective collection
  • Treatment methods applied to urban waste: controlled landfill, composting, sorting, recycling
  • Issue of recycling
    Seminars presented by professional actors are associated with the program whenever possible.
    2. Student seminar
    In groups, students investigate and develop the critical analysis of claims disseminated to the general public on a practical problem in pollution and environmental management. They present their arguments in synthetic oral and written summary ofcommunication.
    3. Laboratory and practice
    The laboratory activity is an introduction to the practical aspects of the characterization of pollution, based on field collection of water samples, laboratory analysis and interpretation of results.
    Visits of sewage or waste treatment plants or polluted sites are organized when possible.
    Teaching methods
    • Lectures, seminars by the students.
    • Personal work of analysis of general, scientific or technical documents, oral presentation and defence, and report writing on the personal work (as team).
    • External tour for sampling in the field and laboratory analysis the samples
    Evaluation methods
    • Written examination according to the learning outcomes.
    • Oral presentation and written report on the personal essay (as student teams).
    Weights:
    To ensure a sufficient balance in the control of the different pollution domains covered by the course, the final exam mark will be the geometric mean of the marks obtained for each of the 4 main parts of the course (in simplified formulation: "Air", "Soil", "Water", "Seminar"): Mark = [assignment_soil * 0.2 + exam_soil * 0.8]^0.25 *[assignment_air * 0.2 + assignment_air * 0.8]^0.25 *[lab_water *0.2 + exam_water * 0.8]^0.25 * [seminar]^0.25
     
    By default, except in exceptional circumstances which would be communicated to the students, the weighting factors are:
    a=a'=a"=0.2; b=b'=b"=0.8; c=c'=c"=d=0.25
    Accordingly, the weighting is: written exam: 60%, assignments & laboratory: 15%, seminar:25 %

    Continuous assessment activities (assignments and laboratory) must be carried out according to the imposed schedule (absence = 0, delay = penalty). The mark is definitively acquired for the academic year, and re-integrated into the calculation of the final mark in the event of a second session.
    Other information
    Teaching team of Professors with different backgrounds. Invited speakers when possible.
    Online resources
    Moodle
    Bibliography
    Supports de cours et documents de référence disponibles sur Moodle.
    Livres utiles mais non obligatoires :
    Claus Bliefert & Robert Perraud (2009). Chimie de l'environnement: Air, eau, sols, déchets. De Boeck. ISBN: 9782804159450. pp. 478.
    Colin Baird & Michael Cann (2016). Chimie de l'environnement. De Boeck. ISBN: 9782804192174. pp. 776.
    Ces livres sont plus larges que la matière vue au cours et la présentent de manière différente, mais est un bon document de base, généraliste, pour un futur professionnel de l'environnement. Disponible à la BST.
    Faculty or entity


    Programmes / formations proposant cette unité d'enseignement (UE)

    Title of the programme
    Sigle
    Credits
    Prerequisites
    Learning outcomes
    Master [120] in Environmental Science and Management

    Interdisciplinary Advanced Master in Science and Management of the Environment and Sustainable Development