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Sustainability in Engineering SolutionsLaajuus (6 cr)

Code: ET22EC01

Credits

6 op

Objective

In this introductory module, students will develop their skill set and knowledge for a range of sustainable solutions and decision-making in engineering, as well as in Life Cycle Assessment in engineering.

Content

Introduction to Sustainable Development
Circular Economy
Sustainable approach
System Analysis
Transitional Solutions
Basics of Life Cycle Assessments theory and practice (SimaPro)
Sustainable Energy Solutions
Other challenges

Qualifications

No prerequisites.

Assessment criteria, satisfactory (1)

35% – 60% of course work and exam completed

Assessment criteria, good (3)

60% – 85% of course work and exam completed

Assessment criteria, excellent (5)

85% – 100% of course work and exam completed

Materials

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

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Enrollment

02.07.2024 - 22.09.2024

Timing

29.08.2024 - 15.12.2024

Number of ECTS credits allocated

6 op

Mode of delivery

Contact teaching

Campus

Vasa, Wolffskavägen 33

Teaching languages
  • English
Degree programmes
  • Degree Programme in Energy Technology
  • Degree Programme in Electrical Engineering and Automation
Teachers
  • Philip Hollins
Teacher in charge

Ronnie Sundsten

Scheduling groups
  • ET24 (Size: 40. Open UAS: 0.)
  • ELA21-E (Size: 40. Open UAS: 0.)
Groups
  • ET24D-V
    Energy Technology, 2024
  • ELA21D-V
    Ingenjör (YH), el- och automationsteknik, 2021, dagstudier
Small groups
  • ET24
  • ELA21-E

Objective

In this introductory module, students will develop their skill set and knowledge for a range of sustainable solutions and decision-making in engineering, as well as in Life Cycle Assessment in engineering.

Content

Introduction to Sustainable Development
Circular Economy
Sustainable approach
System Analysis
Transitional Solutions
Basics of Life Cycle Assessments theory and practice (SimaPro)
Sustainable Energy Solutions
Other challenges

Location and time

Autumn-Winter 2024 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.

Materials

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

Teaching methods

Competence objectives of the study unit
This module familiarises engineers with the principles of sustainability within the global, national and local context.

Areas that will be considered are: Sustainably Development Goals (SDG's), Environmental Impact Assessment (EIA), Circular Economy, Waste to Energy (Wte) and Lifecycle Analysis (LCA) modelling

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

Information and study materials are provided in Moodle for the course

Student workload

6 ETCS = 162 hours

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

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

35% – 60% of course work and exam completed

Assessment criteria, good (3)

60% – 85% of course work and exam completed

Assessment criteria, excellent (5)

85% – 100% of course work and exam completed

Assessment methods and criteria

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

1. Group Presentation
2. Directed study
3. Multichoice exam
4. Video production
5. Reports + calculation


FYI. Grade scale used - modification of EPS

Assessment criteria, fail (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

Qualifications

No prerequisites.

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Enrollment

15.06.2023 - 03.09.2023

Timing

04.09.2023 - 17.12.2023

Number of ECTS credits allocated

6 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology and Seafaring

Campus

Vasa, Wolffskavägen 33

Teaching languages
  • English
Degree programmes
  • Degree Programme in Energy Technology
  • Degree Programme in Electrical Engineering and Automation
Teachers
  • Philip Hollins
Teacher in charge

Ronnie Sundsten

Scheduling groups
  • ET23 (Size: 30. Open UAS: 0.)
  • ELA21-E (Size: 30. Open UAS: 0.)
Groups
  • ET23D-V
    Energy Technology, 2023
  • ELA21D-V
    Ingenjör (YH), el- och automationsteknik, 2021, dagstudier
Small groups
  • ET23
  • ELA21-E

Objective

In this introductory module, students will develop their skill set and knowledge for a range of sustainable solutions and decision-making in engineering, as well as in Life Cycle Assessment in engineering.

Content

Introduction to Sustainable Development
Circular Economy
Sustainable approach
System Analysis
Transitional Solutions
Basics of Life Cycle Assessments theory and practice (SimaPro)
Sustainable Energy Solutions
Other challenges

Location and time

Autumn-Winter 2023 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.

Materials

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

Teaching methods

Competence objectives of the study unit
This module familiarises engineers with the principles of sustainability within the global, national and local context.

Areas that will be considered are: Sustainably Development Goals (SDG's), Environmental Impact Assessment (EIA), Circular Economy, Waste to Energy (Wte) and Lifecycle Analysis (LCA) modelling

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

Information and study materials are provided in Moodle for the course

Student workload

6 ETCS = 162 hours

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

Evaluation scale

H-5

Assessment criteria, satisfactory (1)

35% – 60% of course work and exam completed

Assessment criteria, good (3)

60% – 85% of course work and exam completed

Assessment criteria, excellent (5)

85% – 100% of course work and exam completed

Assessment methods and criteria

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

1. Group Presentation
2. Directed study
3. Multichoice exam
4. Video production
5. Reports + calculation


FYI. Grade scale used - modification of EPS

Assessment criteria, fail (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

Qualifications

No prerequisites.