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Water conservation and technical solutions (11 cr)

Code: 5100BI71-3004

General information


Enrollment

01.06.2024 - 29.08.2024

Timing

02.09.2024 - 13.12.2024

Number of ECTS credits allocated

11 op

Mode of delivery

Contact teaching

Unit

Engineering and Business

Teaching languages

  • English

Degree programmes

  • Degree Programme in Energy and Environmental Technology

Teachers

  • Arto Huhta
  • Hannamaria Yliruusi
  • Antti Kaseva
  • Anu Vehmaa

Groups

  • PEYTES22
  • PEYTES21
  • 03.09.2024 12:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 06.09.2024 09:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 06.09.2024 11:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 06.09.2024 12:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 10.09.2024 08:00 - 10:00, Water conservation and technical solutions 5100BI71-3004
  • 10.09.2024 10:00 - 14:00, Water conservation and technical solutions 5100BI71-3004
  • 17.09.2024 08:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 20.09.2024 08:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 20.09.2024 11:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 24.09.2024 09:00 - 16:00, Water conservation and technical solutions 5100BI71-3004
  • 27.09.2024 12:00 - 16:00, Water conservation and technical solutions 5100BI71-3004
  • 01.10.2024 10:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 01.10.2024 12:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 04.10.2024 09:00 - 16:00, Water conservation and technical solutions 5100BI71-3004
  • 08.10.2024 08:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 11.10.2024 08:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 11.10.2024 11:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 22.10.2024 08:00 - 14:00, Water conservation and technical solutions 5100BI71-3004
  • 23.10.2024 14:00 - 16:00, Water conservation and technical solutions 5100BI71-3004
  • 25.10.2024 08:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 29.10.2024 08:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 29.10.2024 12:00 - 16:00, Water conservation and technical solutions 5100BI71-3004
  • 01.11.2024 08:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 01.11.2024 12:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 05.11.2024 12:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 08.11.2024 08:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 08.11.2024 12:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 12.11.2024 08:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 15.11.2024 08:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 15.11.2024 13:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 19.11.2024 10:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 22.11.2024 08:00 - 15:00, Water conservation and technical solutions 5100BI71-3004
  • 26.11.2024 08:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 26.11.2024 11:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 29.11.2024 08:00 - 11:00, Water conservation and technical solutions 5100BI71-3004
  • 29.11.2024 11:00 - 12:00, Water conservation and technical solutions 5100BI71-3004
  • 03.12.2024 12:00 - 16:00, Water conservation and technical solutions 5100BI71-3004
  • 10.12.2024 08:00 - 14:00, Water conservation and technical solutions 5100BI71-3004

Objective

The student knows what kind of policies and regulations direct water resources management in the Baltic Sea region. The student can identify pollution sources in a drainage basin, he/she knows the basics of integrated water resources management and can use GIS tools for planning of water protection measures.
The student knows the basics of water and habitat restoration methods and can make draft designs of different types of solutions for reducing diffuse loading. The student knows how official water quality monitoring works and how continuous monitoring methods can be used for assessing the efficiency of water protection measures.

Content

- Ecological and chemical state of water bodies
- Different types, sources and impacts of loading into water bodies
- Integrated water resources management and the basics of River Basin Management planning
- The use of GIS (geographical information system) tools in water resources management
- River, stream and lake restoration methods
- Solutions for reducing nutrient and chemical loading from diffuse sources
- Planning and dimensioning of water protection measures
- Water quality monitoring

Materials

Learning materials will be provided during lectures and via Its Learning online course platform.

Teaching methods

Teaching will be based on classroom and possibly online lectures and learning activities. In addition two fieldwork days will be arranged.
The following learning methods will be used during the course:
- Presentations
- Group assignments
- Field studies and case reports
- Essays
- Participating on lectures
- Multiple-choice tests

Exam schedules

Course assessment is assignment based and continuous and therefore renewal by exam is not possible.

International connections

Course will apply TurkuUAS innovation pedagogy methods. Learning will include real life case examples, professionally oriented assignments and assignments to apply the theory into the practice. Students will have active role and they will have the responsibility for own learning activities and time planning.

Completion alternatives

None

Student workload

Learning will include diverse range of independent and group assignments.
1 student credit equals approximately 27 hours of work., and 11 credits will require 297 hours of work.

Submission of assignments and tasks
•All assignment, tasks, and quizzes needs to be finalized and submitted by the DL. If submission is after the DL, assignment automatically gets 0 points.
•If however, you have difficulties to submit your assignment (Computer difficulties or sick leave), you need to contact topics teacher via email BEFORE the assignment DL and agree about special submission terms.

Classroom activities will be only small part of the time resources and individual and group activities outside classroom will have essential role on learning.

The course is planned assuming that the students attend the lessons

Content scheduling

Course will be held between 3.9.2024 - 11.12.2024. The course will start on Tuesday 3.9.2023.
The course will be mainly held on campus.

Goals:
The student knows what kind of policies and regulations direct water resources management in the Baltic Sea region. The student can identify pollution sources in a drainage basin, he/she knows the basics of integrated water resources management and can use GIS tools for planning of water protection measures.

The student knows the basics of water and habitat restoration methods and can make draft designs of different types of solutions for reducing diffuse loading. The student knows how official water quality monitoring works and how continuous monitoring methods can be used for assessing the efficiency of water protection measures

Content:
- Ecological and chemical state of water bodies
- Different types, sources and impacts of loading into water bodies
- Integrated water resources management and the basics of River Basin Management planning
- The use of GIS (geographical information system) tools in water resources management
- River, stream and lake restoration methods
- Solutions for reducing nutrient and chemical loading from diffuse sources
- Planning and dimensioning of water protection measures
- Water quality and quantity monitoring

Course will have 7 individual parts/elements:
- Basics & Limnology, 2 credits
- Policies and co-operation, 1 credit
- Lake and River restoration, 1 credit
- Monitoring techniques and technologies, 1 credit
- GIS, 3 credits
- Load Reduction, 2 credits
- Integrative report, 1 credits

Further information

email: anu.vehmaa@turkuamk.fi

Evaluation scale

H-5

Assessment methods and criteria

Course assessment criteria:
Every course part will have individual assignments and point evaluation. Course grade will be based on total points collected.
- 50 % of the total 110 points is required to pass the course
- If course assignments are returned late, it will be evaluated as zero points.
- There is no minimun point requirement for each part
- Note: Integrative course report is compulsory
- Note: Field day attendance is compulsory
- The course is planned so, that it is assumed that the students attend the lessons
- Quizz exams / multiple-choise tests can be done only once and there will not be renewal opportunity for those.

Course points (max. 110 points):
- Basics & Limnology, 20 points
- Policies and co-operation, 10 points
- Lake and River restoration, 10 points
- Monitoring techniques and technologies, 10 points
- GIS, 30 points
- Load reduction, 20 points
- Integrative report, 10 points

Assessment criteria, fail (0)

0 - 54 points

Assessment criteria, satisfactory (1-2)

55 - 77 points

Assessment criteria, good (3-4)

78 - 99 points

Assessment criteria, excellent (5)

100 - 110 points