Environmental Technology

Universidad Carlos III de Madrid

Course Description

  • Course Name

    Environmental Technology

  • Host University

    Universidad Carlos III de Madrid

  • Location

    Madrid, Spain

  • Area of Study

    Electrical Engineering, Environmental Engineering

  • Language Level

    Taught In English

  • Prerequisites

    STUDENTS ARE EXPECTED TO HAVE COMPLETED:

    Chemical Basis of Engineering

  • Course Level Recommendations

    Lower

    ISA offers course level recommendations in an effort to facilitate the determination of course levels by credential evaluators.We advice each institution to have their own credentials evaluator make the final decision regrading course levels.

    Hours & Credits

  • ECTS Credits

    3
  • Recommended U.S. Semester Credits
    1
  • Recommended U.S. Quarter Units
    2
  • Overview

    Environmental Technology (222 - 14756)
    Study: Bachelor in Electrical Power Engineering
    Semester 2/Spring Semester
    2nd Year Course/Lower Division

    STUDENTS ARE EXPECTED TO HAVE COMPLETED:

    Chemical Basis of Engineering

    Competences and Skills that will be Acquired and Learning Results:

    The aim of this course is to provide an overview of the environmental issues by presenting the origin of pollutants, their mechanisms and processes, as well as the effect that have the various pollutants on human health and on the biosphere. Highlight the global impact of local pollution and the interrelationships with other sources or natural cleansing and transport mechanisms, as well as the labour and health impact of the working environment. Bring relief to debate environmental degradation/development, in its most related to the industrial world. Point out the various industrial sources and their absolute and relative contribution.
    The demand for products and services related to the environment as well as environmentally-friendly products, has created a new market that need to be considered, as it is necessary to consider the environmental variable in the new products as a factor more than competitiveness.
    To achieve this objective the student must acquire a set of knowledge, skills and attitudes.
    As far as knowledge is concerned, at the end of the course the student will be capable of:
    -Handle the concepts of environment, sustainability, pollution and treatment.
    -Identify and assess the root causes of water and air pollution.
    -Know the basic technologies of the effluent treatment for the mitigation and prevention of water and air pollution.
    In terms of the capabilities these them can be classified in two groups one of specific capabilities and other more generic capacities or skills.
    In terms of specific capabilities, at the end of the course the student will be able of:
    -Analysis of industrial and urban pollution.
    -Selection of effluent decontamination systems.
    -Analysis of sustainability and selection of best available techniques...
    In terms of the General abilities or skills, during the course will work:
    -The ability to analyze problems.
    -The ability to search, to communicate and to discriminate is relevant information to characterize an installation from the environmental point of view.
    -The ability to apply knowledge of sustainability to the resolution of a specific problem.
    In terms of the attitudes the students after completing the course should be:
    -A critical attitude towards the way of identifying and evaluating the actions and operation of basic equipment that constitutes an installation.
    -An attitude of collaboration that will allow other agents get the information and knowledge necessary to perform complex tasks.

    Description of Contents/Course Description:

    The course addresses urban and industrial wastes, including the main pollutants appearing in air and wastewater systems. Several aspects such as pollutant origin (sources and formation mechanisms), dispersion processes, environmental and health impact, and risk assessment are covered. Special attention is given on green engineering and its close relation to sustainable development.
    The program is divided into the following blocks:
    I. General concepts about environment, sustainability, pollution and effluent treatment, and green chemistry.
    II. Air pollution, its sources, analysis, treatment, transport and dispersion pollutants atmospheric, impact on health.
    III. Water pollution, sources, analysis and treatment.

    Learning Activities and Methodology:

    The teaching methodology will include:
    1. Master classes, where will be the knowledge that students need to acquire. To facilitate its development students will receive the notes from class and will have basic texts of reference enabling them to complete and deepen the topics in which they are most interested.
    2. Problem solving by student who will serve you to evaluate their knowledge and acquire the necessary capabilities.
    Implementation of the answers to the exercises and correction joint should serve to strengthen skills and develop the capacity to analyze and communicate the relevant information to solve problems. Also the implementation in common will facilitate exchange of views critical to both between teacher and students and among students.

    Assessment System:

    1. The evaluation will be based on the following criteria:
    - Two partial exams: 40%
    Individual exams proposed by the master class and tutorial class teachers. Dates will be notified at least one week before the exam.
    - Practical laboratory session: 10%
    - Project 10%
    2. Final Exam: 40%
    To pass the exam and consider the continuous assessment mark, the mark of the final exam must be above 4 points of 10.
    In order to pass the lecture course the total mark must be at least 5.

    Basic Bibliography:

    C. Baird, M Cann. Environmental Chemistry. Reverté.
    S. E. Manahan. Environmental Chemistry. CRC Press.

Course Disclaimer

Courses and course hours of instruction are subject to change.

ECTS (European Credit Transfer and Accumulation System) credits are converted to semester credits/quarter units differently among U.S. universities. Students should confirm the conversion scale used at their home university when determining credit transfer.