•   Energy: Resources, Transfer and Storage ET22TE02-3001 05.09.2022-18.12.2022  6 credits  (ET22D-V, ...) +-
    Competence objectives of the study unit
    Discuss Sankey diagrams with respect to climate change impacts
    Review and evaluate a range of low carbon energy generation technologies
    Appraise the benefits/limitations of developing energy storage solutions
    Describe the challenges of renewable energy and grid distribution infrastructure
    Identify `nudge´ psychology with policy to modify human behavioural patterns
    Prerequisites
    No prerequisites.
    Content of the study unit
    This course focuses on a number of renewable low carbon and rapidly emerging energy storage alternatives. Specifically, those related to the transport and power generation sectors. It will discuss current and future implementation as a means to limit the emissions of GHG’s and thereby mitigate the effects of global warming.
    Assessment criteria
    Failed (0)
    <50% of the maximum number of credits earned in the assignments
    Assessment criteria – satisfactory (1-2)
    It will contain basic summaries/descriptions of some of the topics covered and will contain some sense of the student’s learning, but it may be sketchy, disorganised, short, or lacking a sense of progression. While there will be some evidence of understanding, the work will show very limited evidence of critical selection, analysis and reflection.
    Assessment criteria – good (3-4)
    It will show a clear and developing understanding of the concepts and issues addressed in the course, and provide both critical analysis and reflection on the topics of the course. The work will cover the main topics/themes but may draw on supplementary resources as well. There will be clear evidence of the student’s own learning process and of active engagement with the course content.
    Assessment criteria – excellent (5)
    It will not only demonstrate comprehensive and relevant coverage of the course
    material but it will also present substantial analysis, evaluation and synthesis.
    Work in this range will draw on a considerable amount of supplementary resources, take a particularly original approach to reflection, or point out exceptionally insightful or unexpected links between different elements of the course. The work submitted will reflect a persistent and high level of engagement and learning and will demonstrate a cumulative understanding of the course material

    Name of lecturer(s)

    Ronnie Sundsten

    Learning material

    Course documentation is within Moodle together with relevant teaching materials and reference documents

    Learning methods

    Competence objectives of the study unit
    This module familiarises students with a number of renewable low carbon and rapidly emerging energy storage alternatives, specifically, those related to the transport and power generation sectors. It will discuss current and future implementation as a means to limit the emissions of GHG’s and thereby mitigate the effects of global warming.

    Areas that will be considered are: National power mix, Intermittency and dispatchability, Sankey diagrams, Solar/Wind - key technologies, SAM Modelling software, Hydropower, Nuclear power, Intro' energy storage- options

    Format of delivery
    Lectures, group presentations, group work, self-study, computer classes and study visit(s)

    Information and study materials are provided in Moodle for the course

    Objects, timing and methods of assessment

    To complete the course the following criteria are used for evaluation:


    1. Individual learning diaries
    2. Individual short report
    3. Group SAM model simulation and presentation
    4. Individual review report of group work
    5. Attendance to lectures/study visits

    FYI. Grade scale used - modification of EPS

    Teaching language

    English

    Timing

    05.09.2022 - 18.12.2022

    Enrollment date range

    15.06.2022 - 11.09.2022

    Group(s)
    • ET22D-V
    • ELA20D-V
    Responsible unit

    Faculty of Technology and Seafaring

    Small group(s)
    • ELA20-V-E (Size: 25.
    • DDE (Size: 25.
    • ET120 (Size: 25.
    Teachers and responsibilities

    Philip Hollins

    Degree Programme(s)

    Degree Programme in Energy Technology, Degree Programme in Electrical Engineering and Automation

    Campus

    Vasa, Wolffskavägen 33

    Assessment scale

    H-5

    Timing and attendance

    Autumn-Winter 2022 Place: Vaasa Campus
    Lectures in class are held in Novia according to the schedule in Peppi/Tuudo.

    The time for submission of assessed material and any additional materials is within the lecture lesson schedule - or no later than two weeks after the last lesson.

    Student's schedule and workload

    6 ETCS = 162 hours

    Contact teaching and computer classes approx ~ 30 hr
    Study visits ~4hr
    Independent (and group) studying and preparation ~128 hr

    Assessment criteria
    Failed (0)

    <50% of the maximum number of credits earned in the assignments

    Assessment criteria – satisfactory (1-2)

    50-59% (=1) or 60-69% (=2) of the maximum number of credits earned in the assignments respectively

    Assessment criteria – good (3-4)

    70-79% (=3) or 80-89% (=4) of the maximum number of credits earned in the assignments respectively

    Assessment criteria – excellent (5)

    90-100% (=5) of the maximum number of credits earned in the assignments respectively