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Technological CyclesLaajuus (5 cr)

Code: AT00CH97

Credits

5 op

Teaching language

  • English

Objective

The student is able to
- to understand the principles of technical and material cycles as a part of the circular economy
-to understand the importance of responsible production and consumption of non-renewable natural resources materials
- to understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- to know the principles and methods related to sustainable, circular economy and product & process design
- to discover wide variety of circular economy opportunities due to the examples of circular models

Enrollment

06.05.2024 - 30.08.2024

Timing

01.10.2024 - 31.12.2024

Number of ECTS credits allocated

5 op

Virtual portion

5 op

Mode of delivery

Distance learning

Unit

Faculty of Technology (LAB)

Campus

E-campus, Lahti

Teaching languages
  • English
Degree programmes
  • Bachelor’s Degree Programme in Sustainable Solutions Engineering
Teachers
  • Kati Mustonen
Scheduling groups
  • Online lecture (Size: 0. Open UAS: 0.)
Groups
  • TLTISSE24SV
    Bachelor’s Degree Programme in Sustainable Solutions Engineering 24SV Lahti
Small groups
  • Online lecture

Learning outcomes

The student is able to
- to understand the principles of technical and material cycles as a part of the circular economy
-to understand the importance of responsible production and consumption of non-renewable natural resources materials
- to understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- to know the principles and methods related to sustainable, circular economy and product & process design
- to discover wide variety of circular economy opportunities due to the examples of circular models

Implementation and methods of teaching

This course is a virtual course. The contact learning lectures are held online. The assignments and exams can be done independently.
Exact timing will be informed in the course´s Moodle platform in the beginning of the study module.

Timing and attendance

The course is held during the fall semester.

Learning material and recommended literature

All the materials will be achievable online and delivered in Moodle.

Alternative completion methods

Arrangements will be agreed with the teacher in responsible of the course.

Exam retakes

Will be informed in the beginning of the course.

Learning environment

Online learning platform, ZOOM and Teams.

Student time use and work load

The average work load for this course is estimated to be 135 hours (5 ECTS). The main part of the study module´s work load consists of independent work, about 100 hours. The time allocation for contact learning is about 5 hours. There is also about 30 hours time allocated for final exam, preparation and execution.

Contents

This course focuses on the technical and material cycles, especially non-renewable natural resources. It aim is to highlight the importance of the responsible production and consumption based on the principles of the circular economy. Also the principles of sustainable value chains, design and examples of circular economy models will be familiar during the course.

Additional information for students: previous knowledge etc.

No previous knowledge required

Assessment criteria

All of the given assignments and exam must be done (and approved). The more detailed evaluation criterias will be informed in the beginning of the study module.

Assessment scale

1-5

Failed (0)

The student has not achieved the competence objectives of the course or has not been able to demonstrate his / her competence

Assessment criteria: level 1 (assessment scale 1–5)

Student is able to:
- identify principles of technical and material cycles as a part of the sustainable and circular economy
- know the importance of responsible production and consumption of non-renewable natural resources and materials
- know in the basic level the interactions of sustainable/non-sustainable production and consumption with the main future challenges like pollution, climate change, resource and nature depletion
- know the principles of sustainable, circular economy and product design
- participate team work and reflect oneself learning outcomes

Assessment criteria: level 3 (assessment scale 1–5)

Student is able to:
- understand the principles of technical and material cycles as a part of the circular economy
- understand the importance of responsible production and consumption of non-renewable natural resources and materials
- understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- know the principles and methods used fot sustainable, circular economy and product and process design
- describe and use methods how to discover circular economy opportunities
- participate actively to team work and reflect oneself and teams learning outcomes

Assessment criteria: level 5 (assessment scale 1–5)

Student is able to_
- understand the importance of sustainable and circular technical and material cycles
- understand the importance of responsible production and consumption of non-renewable natural resources, materials and their interactions
- understand and communicate actively about the interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- know how to apply methods related to sustainable, circular economy and product design
- discover a wide variety of circular economy opportunities
- manage team work
- reflect oneself and teams learning outcomes and make suggestion for improvement

Enrollment

15.05.2023 - 01.09.2023

Timing

30.10.2023 - 31.12.2023

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology (LAB)

Campus

E-campus, Lahti

Teaching languages
  • English
Degree programmes
  • Bachelor’s Degree Programme in Sustainable Solutions Engineering
Teachers
  • Kati Mustonen
Scheduling groups
  • Lectures (Size: 0. Open UAS: 0.)
Groups
  • TLTISSE23SV
    Bachelor’s Degree Programme in Sustainable Solutions Engineering 23SV Lahti
Small groups
  • Lectures

Learning outcomes

The student is able to
- to understand the principles of technical and material cycles as a part of the circular economy
-to understand the importance of responsible production and consumption of non-renewable natural resources materials
- to understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- to know the principles and methods related to sustainable, circular economy and product & process design
- to discover wide variety of circular economy opportunities due to the examples of circular models

Implementation and methods of teaching

This course is a virtual course. The part of the lectures are prerecorded. All of the assignments and exams can be done on-line. There will be approximately 4 contact learning sessions, which exact timing will be informed in the course´s Moodle platform and in TimeEdit. The contact learning sessions contains lectures, group discussions and workshops. To pass the course student must do two individual and group assignments, based on the teachers instructions. Also online exam is arranged.

Timing and attendance

The study module will start on Tuesday 15th of November afternoon (follow Moodle and TimeEdit). It is strongly recommended to participate contact learning sessions. The deadlines for assignments and exams will be informed in the beginning of the study module.

Learning material and recommended literature

Will be specified. All the materials will be achievable online and delivered via Moodle.

Exam retakes

Will be informed in the beginning of the course.

Learning environment

On line learning platform, ZOOM and Teams

Student time use and work load

The average work load for this course is estimated to be 135 hours (5 ECTS). The main part of the study module´s work load consists of independent and group work, about 80 hours.The time allocation for contact learning (lectures, work shops) is about 16 hours. About 40 hours is allocated for final exam, preparation and execution.

Contents

This course is concentrated on the technical and material cycles, especially non-renewable natural resources. It aim is to highlight the importance of the responsible production and consumption based on the principles of the circular economy. Also the principles of sustainable value chains, design and examples of circular economy models will be familiar during the course.

Additional information for students: previous knowledge etc.

No previous knowledge required

Assessment criteria

All of the given assignments and exam must be done (and approved). The more detailed evaluation criterias will be informed in the beginning of the study module.

Assessment scale

1-5

Failed (0)

The student has not achieved the competence objectives of the course or has not been able to demonstrate his / her competence

Assessment criteria: level 1 (assessment scale 1–5)

Student is able to:
- identify principles of technical and material cycles as a part of the sustainable and circular economy
- know the importance of responsible production and consumption of non-renewable natural resources and materials
- know in the basic level the interactions of sustainable/non-sustainable production and consumption with the main future challenges like pollution, climate change, resource and nature depletion
- know the principles of sustainable, circular economy and product design
- participate team work and reflect oneself learning outcomes

Assessment criteria: level 3 (assessment scale 1–5)

Student is able to:
- understand the principles of technical and material cycles as a part of the circular economy
- understand the importance of responsible production and consumption of non-renewable natural resources and materials
- understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- know the principles and methods used fot sustainable, circular economy and product and process design
- describe and use methods how to discover circular economy opportunities
- participate actively to team work and reflect oneself and teams learning outcomes

Assessment criteria: level 5 (assessment scale 1–5)

Student is able to_
- understand the importance of sustainable and circular technical and material cycles
- understand the importance of responsible production and consumption of non-renewable natural resources, materials and their interactions
- understand and communicate actively about the interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- know how to apply methods related to sustainable, circular economy and product design
- discover a wide variety of circular economy opportunities
- manage team work
- reflect oneself and teams learning outcomes and make suggestion for improvement

Enrollment

01.07.2022 - 04.09.2022

Timing

07.11.2022 - 31.12.2022

Number of ECTS credits allocated

5 op

Virtual portion

5 op

Mode of delivery

Distance learning

Unit

Faculty of Technology (LAB)

Campus

E-campus, Lahti

Teaching languages
  • English
Seats

0 - 50

Degree programmes
  • Bachelor’s Degree Programme in Sustainable Solutions Engineering
Teachers
  • Sakari Autio
  • Pia Haapea
  • Tilly Andersson
Scheduling groups
  • Verkkoluento (Size: 0. Open UAS: 0.)
Groups
  • TLTISSE22SV
Small groups
  • Verkkoluento 1

Learning outcomes

The student is able to
- to understand the principles of technical and material cycles as a part of the circular economy
-to understand the importance of responsible production and consumption of non-renewable natural resources materials
- to understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- to know the principles and methods related to sustainable, circular economy and product & process design
- to discover wide variety of circular economy opportunities due to the examples of circular models

Implementation and methods of teaching

This course is a virtual course. The part of the lectures are prerecorded. All of the assignments and exams can be done on-line. There will be approximately 4 contact learning sessions, which exact timing will be informed in the course´s Moodle platform and in TimeEdit. The contact learning sessions contains lectures, group discussions and workshops. To pass the course student must do two individual and group assignments, based on the teachers instructions. Also online exam is arranged.

Timing and attendance

The study module will start on Tuesday 15th of November afternoon (follow Moodle and TimeEdit). It is strongly recommended to participate contact learning sessions. The deadlines for assignments and exams will be informed in the beginning of the study module.

Learning material and recommended literature

Will be specified. All the materials will be achievable online and delivered via Moodle.

Exam retakes

Will be informed in the beginning of the course.

Learning environment

On line learning platform, ZOOM and Teams

Student time use and work load

The average work load for this course is estimated to be 135 hours (5 ECTS). The main part of the study module´s work load consists of independent and group work, about 80 hours.The time allocation for contact learning (lectures, work shops) is about 16 hours. About 40 hours is allocated for final exam, preparation and execution.

Contents

This course is concentrated on the technical and material cycles, especially non-renewable natural resources. It aim is to highlight the importance of the responsible production and consumption based on the principles of the circular economy. Also the principles of sustainable value chains, design and examples of circular economy models will be familiar during the course.

Additional information for students: previous knowledge etc.

No previous knowledge required

Assessment criteria

All of the given assignments and exam must be done (and approved). The more detailed evaluation criterias will be informed in the beginning of the study module.

Assessment scale

1-5

Failed (0)

The student has not achieved the competence objectives of the course or has not been able to demonstrate his / her competence

Assessment criteria: level 1 (assessment scale 1–5)

Student is able to:
- identify principles of technical and material cycles as a part of the sustainable and circular economy
- know the importance of responsible production and consumption of non-renewable natural resources and materials
- know in the basic level the interactions of sustainable/non-sustainable production and consumption with the main future challenges like pollution, climate change, resource and nature depletion
- know the principles of sustainable, circular economy and product design
- participate team work and reflect oneself learning outcomes

Assessment criteria: level 3 (assessment scale 1–5)

Student is able to:
- understand the principles of technical and material cycles as a part of the circular economy
- understand the importance of responsible production and consumption of non-renewable natural resources and materials
- understand interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- know the principles and methods used fot sustainable, circular economy and product and process design
- describe and use methods how to discover circular economy opportunities
- participate actively to team work and reflect oneself and teams learning outcomes

Assessment criteria: level 5 (assessment scale 1–5)

Student is able to_
- understand the importance of sustainable and circular technical and material cycles
- understand the importance of responsible production and consumption of non-renewable natural resources, materials and their interactions
- understand and communicate actively about the interactions of sustainable/non-sustainable production and consumption on the main future challenges like pollution, climate change, resource and nature depletion
- know how to apply methods related to sustainable, circular economy and product design
- discover a wide variety of circular economy opportunities
- manage team work
- reflect oneself and teams learning outcomes and make suggestion for improvement