Implementations in academic year 2021 - 2022

•   Contaminated Soils 5E00BH49-3006 26.08.2021-09.12.2021  4 cr  (18IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows the concepts related to contaminated soils
  - knows main soil pollutants
  - knows the processes of soil contamination
  - knows remediation and management technologies of contaminated soils
  - can monitor contaminated soil quality
  - can plan and implement remediation projects for contaminated land areas
  - get competence in taking environmental samples.

  Prerequisites and co-requisites

  This course is primarily aimed for the environmental engineering, Double Degree, and exchange students. Before taking this course you need to have all basic studies done, especially all chemistry, physics and mathematics courses. In addition, it is required that you have completed Soils Science and Engineering or equivalent course.
  
  Double Degree and exchange students planning to take the course, has to have experience and training in working in laboratory and should have an introductory soil engineering and chemistry courses done before taking this course.

  Course contents

  Soil contaminants, sampling, analysis and measurement methods, treatment and bioremediation methods, field visits and practical work.

  ---

  Name of lecturer(s)

  Hilda Szabo

  Recommended or required reading

  Keijzer et al. 2006. In situ soil and groundwater remediation: theory and practice. Tauw, the Netherlands
  Lecture materials and literature related to the subject.

  Planned learning activities and teaching methods

  Lectures, exercises, weakly assignments, group discussions, field work (sampling), field- and laboratory measurements, group exam.

  Assessment methods and criteria

  Assessment of the course is based on weekly assignments (60 %) and final group exam (40 %). Self-evaluation and group evaluation are mandatory parts of the course and shall be returned to teachers as instructed by the end of the course. In addition, all fieldwork exercises are a mandatory part of the course.

  Language of instruction

  English

  Timing

  26.08.2021 - 09.12.2021

  Registration

  02.07.2021 - 31.08.2021

  Credits

  4 cr

  Group(s)

  18IDEE

  Teacher(s)

  Mika Nieminen, Seija Haapamäki, Hilda Szabo

  Unit, in charge

  Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Evaluation scale

  0-5

  Completion alternatives

  If you have work experience from contaminated soils and groundwater, you have a possibility to negotiate for alternative ways to complete the course. Also, if you have taken a course with a similar kind of content, please contact the teachers.

  Training and labour cooperation

  Course includes lectures of working life reopresentatives.

  Exam schedule

  Group exam at the end of the course.

  Students use of time and load

  Contact lessons and laboratory exercises 40 hours
  Self-study (reports, exercises, exam) 68 hours
  Total 108 hours
  Please note that the allocation for independent study is more than half of the time allocated to the course, so this requires significant self-study input.

  Assessment criteria

  Not approved

  Competences required have not been achieved in a sufficient level and/or indicators of the competences are missing: Participation on the course activities, assignments and reports are deficient, belated or missing. Achieved competence in design, study and report contaminated soil project have not been shown with sufficient input and knowledge and understanding of the core concepts and phenomena are not proven.

  Satisfactory

  Achieved competence in design, study and report contaminated soil project is sufficient, but narrow. Knowledge and understanding of the core concepts and phenomena, like fate and transport of chemicals in soil, analysis methods, remediation methods are mainly adopted. Basic skills in soil sampling, site investigation, analysis and reporting and ability to do the analyses in practise when instructed and supervised. Basic theoretical knowledge and understanding in geotechnical engineering and soil pollution.

  Good

  Achieved competence in design, study and report contaminated soil project is structured and applied. Fluent knowledge and understanding of the core concepts and phenomena, like fate and transport of chemicals in soil, analysis methods, remediation methods. Sufficient skills and ability in independent soil sampling, site investigation, analysis and reporting and ability to do the analyses in practise. Fluent theoretical knowledge and understanding in geotechnical engineering and soil pollution.

  Excellent

  Achieved competence is wide, creative and developing. Fluent knowledge and understanding of the core concepts and phenomena like fate and transport of chemicals in soil, analysis methods, remediation methods. In addition, ability to apply the knowledge in new situations. Sufficient skills and understanding in independent soil sampling, site investigation, analysis and reporting and ability to make suggestions for developing and/or improving these methods. Fluent theoretical knowledge and understanding in geotechnical engineering and soil pollution and positive attitude to develop oneself in these fields.

•   Environmental Monitoring and Measurements 5E00BH53-3006 30.08.2021-20.12.2021  4 cr  (21KVIENVE, ...) +-
  Learning outcomes of the course unit

  After completing this course the student:
  - Knows the principles of essential measurement and monitoring methods used in evaluation of the state of the environment;
  - Can use equipment and modelling software utilized in environmental evaluations; and,
  - Can do critical evaluation of measurements and their connection to the state of environment and legislation.

  Prerequisites and co-requisites

  Writing Scientific Reports in English, Physics Laboratories, Industrial Emissions and Monitoring

  Course contents

  A selection of following themes:
  - Air quality monitoring, fine particle and gas emissions;
  - Measurement of noise and radiation;
  - Modelling of noise and air pollution; and,
  - Water monitoring and different measurement technologies.

  ---

  Name of lecturer(s)

  Hilda Szabo

  Recommended or required reading

  Lecture material in moodle.tuni.fi
  Online resources

  Planned learning activities and teaching methods

  Contact teaching OR online teaching
  Measurement work (if possible)
  Co-operative and independent studying
  Computer simulation modelling work
  Guidance with video material
  Written reports

  Assessment methods and criteria

  Assessment is based on measurement and modelling exercises
  
  Noise measurements (report 20 %) and modelling (report 30 %), total 50%
  Air quality monitoring 50%

  Language of instruction

  English

  Timing

  30.08.2021 - 20.12.2021

  Registration

  02.07.2021 - 05.09.2021

  Credits

  4 cr

  Group(s)

  21KVIENVE

  18IDEE

  Teacher(s)

  Sampo Saari, Jari Puranen

  Unit, in charge

  Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Evaluation scale

  0-5

  Students use of time and load

  Classes: 24h
  Independent modelling work 36 h
  Independent self study, measurements and reporting 48h
  Total 108 h

  Assessment criteria

  Not approved

  Missing reports.

  Satisfactory

  Student is able to analyse simple noise and particle modelling cases both qualitatively and quantitatively. Student needs extra support to be able to complete given tasks. Exercises have been done, but results might be slightly erroneous or conclusions are incomplete. Student might have trouble following given deadlines.

  Good

  Student is able to use correct terminology and presents justified qualitative and quantitative analysis. Exercises are done completely, and results and analysis are correct. Results are at least briefly commented. Student doesn't fully understand the meaning or limitations of simulations.

  Excellent

  Student shows the ability to do versatile qualitative and quantitative analysis. Student has a realistic knowledge of the limitations of the theoretical framework. Reports are comprehensive and well-structured. Student is able to clearly show his or her own conclusions related to the results, applications and legislation.

•   GIS and Remote Sensing Tools 5E00BH82-3006 30.08.2021-17.12.2021  5 cr  (18IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows and understand the processing, storage and analysis of spatial information using geographical information systems GIS
  - knows how to apply GIS in practical situations in ecological landscape planning and monitoring of the state of the environment
  - can interpret aerial photographs and make maps using relevant methods

  Course contents

  Principles of GIS and remote sensing tools and applications in land use planning and making and interpreting maps

  ---

  Name of lecturer(s)

  Hilda Szabo

  Recommended or required reading

  Lecture slides and other materials will be available in Moodle course.
  Other materials:
  Ebert, J I 2007, Chapter 3: Photogrammetry, Photointerpretation, and Digital Imaging and Mapping in Environmental Forensics, in: Murphy, B, & Morrison, R, Introduction To Environmental Forensics, Amsterdam: Academic Press. Available in the library's eBook Collection (EBSCOhost).
  contact teaching
  Wise, S. 2013 GIS Fundamentals
  Heywood, Sarah Cornelius and Steve Carver. An introduction to geographical information systems. Harlow : Prentice Hall, 2002.
  QGIS Help
  QGIS videos in You Tube

  Planned learning activities and teaching methods

  The teaching methods include contact teaching, distance teaching, GIS exercises, GIS coursework (individual), remote sensing equipment training, drone exercise (including GNSS data acquisition) on the field and data transfer into GIS, course exam. The exam will be carried out by solving spatial data management tasks in QGIS. The exam will contain also some questions concerning remote sensing issues.

  Assessment methods and criteria

  Exam 50% : Open computer/book Moodle exam executed at TAMK in adp classroom by using QGIS, assessment grades1-5
  Course work 30 %: compulsory, assessment grades 1-5
  Remote sensing (drone mapping, laser scanned data) issues will cover 20% of the whole grade, questions will be included in the GIS Moodle exam.

  Language of instruction

  English

  Timing

  30.08.2021 - 17.12.2021

  Registration

  02.07.2021 - 06.09.2021

  Credits

  5 cr

  Group(s)

  18IDEE

  Teacher(s)

  Kalle Tammi, Mari Oja

  Further information for students

  The software in use on this course is QGIS. It is an open source software freely available in internet. Link for downloading in Moodle.
  Drone mission planning with Pix4DCapture (IOS or Android).
  Photogrammetric processing with Pix4DMapper software (class room license + free trial version available).
  Point cloud visualisation and analysis by CloudCompare (open source software).

  Unit, in charge

  Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Evaluation scale

  0-5

  Training and labour cooperation

  The course exercises are related to the skills that environmental engineers commonly need in their working life.

  Exam schedule

  7.12.2021 Moodle exam
  14.12.2021 Retake, Moodle exam

  Students use of time and load

  Contact teaching and guided computer excercises approximately 50 h, self-study and excercises approximately 85 h. Total approximately 135 h.

  Content periodicity

  Baisc of GIS, QGIS programme
  Remote Sensing data, aerial images, satellite images, point cloud data, DEM, DSM, DTM
  Laser scanning
  Drone mapping
  Satellite positioning
  Coordinate systems
  Photogrammetric software and point cloud software.
  Open spatial map data and download services (NLS and other sources)
  Spatial data models, database management, visualization and thematic maps, searching functions, data entry, elementary proximity, basic analysing tools.
  Environmental observations/change observations based on laser scanning and drone data

  Assessment criteria

  Not approved

  The student does not reach the level of satisfactory or does not do the exam neither the reports

  Satisfactory

  The student can:
  - download open file spatial data
  - do the coordinate definitions
  - separate vector and raster data from each others
  - edit the appearance of the map objects and make thematic maps
  - search map objects and save the results as separate files (layers)
  - save and transfer data with GNSS device
  - explain the properties of aerial/satellite images and point cloud data

  Good

  The student can in addition to previous mentioned:
  - edit map objects and update attribute data
  - utilize searching functions for efficient use of spatial data
  - produce vector data
  - rectify raster images
  - maintain data of different coordinate systems
  - visualise remote sensing data

  Excellent

  The student can apply previous mentioned skills and elementary analysis tools in problem solving.

•   GIS and Remote Sensing Tools 5E00EK91-3001 30.08.2021-17.12.2021  5 cr  (19IENVE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows and understand the processing, storage and analysis of spatial information using geographical information systems GIS
  - knows how to apply GIS in practical situations in ecological landscape planning and monitoring of the state of the environment
  - can interpret aerial photographs and make maps using relevant methods

  Course contents

  Principles of GIS and remote sensing tools and applications in land use planning and making and interpreting maps

  ---

  Name of lecturer(s)

  Hilda Szabo

  Recommended or required reading

  Lecture documents will be available in Moodle course.
  Other materials:
  Ebert, J I 2007, Chapter 3: Photogrammetry, Photointerpretation, and Digital Imaging and Mapping in Environmental Forensics, in: Murphy, B, & Morrison, R, Introduction To Environmental Forensics, Amsterdam: Academic Press. Available in the library's eBook Collection (EBSCOhost).
  contact teaching
  Wise, S. 2013 GIS Fundamentals
  Heywood, Sarah Cornelius and Steve Carver. An introduction to geographical information systems. Harlow : Prentice Hall, 2002.
  QGIS Help
  QGIS videos in You Tube

  Planned learning activities and teaching methods

  The teaching methods include contact teaching, distance teaching, GIS exercises, GIS coursework (individual), remote sensing equipment training, drone exercise (including GNSS data acquisition) on the field and data transfer into GIS, course exam. The exam will be carried out by solving spatial data management tasks in QGIS. The exam will contain also some questions concerning remote sensing issues.

  Assessment methods and criteria

  Exam 50% : Open computer/book Moodle exam executed at TAMK in adp classroom by using QGIS, assessment grades1-5
  Course work 30 %: compulsory, assessment grades 1-5
  Remote sensing (drone mapping, laser scanned data) issues will cover 20% of the whole grade, questions will be included in the GIS Moodle exam.

  Language of instruction

  English

  Timing

  30.08.2021 - 17.12.2021

  Registration

  02.08.2021 - 06.09.2021

  Credits

  5 cr

  Group(s)

  19IENVE

  Teacher(s)

  Kalle Tammi, Mari Oja

  Further information for students

  The software in use on this course is QGIS. It is an open source software freely available in internet. Link for downloading in Moodle.
  Drone mission planning with Pix4DCapture (IOS or Android).
  Photogrammetric processing with Pix4DMapper software (class room license + free trial version available).
  Point cloud visualisation and analysis by CloudCompare (open source software).

  Unit, in charge

  Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Evaluation scale

  0-5

  Training and labour cooperation

  The course exercises are related to the skills that environmental engineers commonly need in their working life.

  Exam schedule

  7.12.2021 Moodle exam
  14.12.2021 Retake, Moodle exam

  Students use of time and load

  Contact teaching and guided computer excercises approximately 50 h, self-study and excercises approximately 85 h. Total approximately 135 h.

  Content periodicity

  Baisc of GIS, QGIS programme
  Remote Sensing data, aerial images, satellite images, point cloud data, DEM, DSM, DTM
  Laser scanning
  Drone mapping
  Satellite positioning
  Coordinate systems
  Photogrammetric software and point cloud software.
  Open spatial map data and download services (NLS and other sources)
  Spatial data models, database management, visualization and thematic maps, searching functions, data entry, elementary proximity, basic analysing tools.
  Environmental observations/change observations based on laser scanning and drone data

  Assessment criteria

  Not approved

  The student does not reach the level of satisfactory or does not do the exam neither the reports

  Satisfactory

  The student can:
  - download open file spatial data
  - do the coordinate definitions
  - separate vector and raster data from each others
  - edit the appearance of the map objects and make thematic maps
  - search map objects and save the results as separate files (layers)
  - save and transfer data with GNSS device
  - explain the properties of aerial/satellite images and point cloud data

  Good

  The student can in addition to previous mentioned:
  - edit map objects and update attribute data
  - utilize searching functions for efficient use of spatial data
  - produce vector data
  - rectify raster images
  - maintain data of different coordinate systems
  - visualise remote sensing data

  Excellent

  The student can apply previous mentioned skills and elementary analysis tools in problem solving.

•   Power Plant Technology 5E00BH58-3006 30.08.2021-31.12.2021  4 cr  (21KVIENVE, ...) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows the main technologies in power plant design, operation and management
  - knows the processes of different energy production forms

  Course contents

  power plant technology

  ---

  Name of lecturer(s)

  Hilda Szabo

  Recommended or required reading

  Course material is informed in TuniMoodle. Partly it will be literature or internet based material, partly teacher’s own material and partly material made by student’s work groups during the course.

  Planned learning activities and teaching methods

  Lectures
  Exercises and pair works or group works /seminars
  End of the course –exam

  Assessment methods and criteria

  Returned exercises
  Activeness in lessons and group works
  End of the course –exam, evaluation of the exam, 0 to 5

  Language of instruction

  English

  Timing

  30.08.2021 - 31.12.2021

  Registration

  01.07.2021 - 15.08.2021

  Credits

  4 cr

  Group(s)

  21KVIENVE

  18IDEE

  Teacher(s)

  Sakari Lepola

  Unit, in charge

  Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Evaluation scale

  0-5

  Completion alternatives

  Participating the lessons is in any case useful, and it is absolutely necessary, when making and presenting the pair works and/or group seminars. Active participation in group work is obligatory in this course.

  Exam schedule

  The exam of the course will be carried out in the end of the course. The exact day will be clear during the end section of the course.

  International connections

  The course is very good possibility to build up international connections with other participants from different countries and from multicultural backgrounds.

  Students use of time and load

  Contact lessons in this course some 30-40 hours. Additional seminar work with own group 10-15 hours and one possible excursion, which takes app. one working day.

  Assessment criteria

  Not approved

  Student does not participate and/or does not return all mandatory works. Also if student does not get minimum points from the exam.

  Satisfactory

  Student’s motivation to participate to the lectures is normal, some absences are possible. The minimum requirement is to fully participate to the seminar work of the own group. Student passes the written or otherwise arranged exam.

  Good

  Student’s motivation to participate to the lectures is good, some absences are possible. Student participates actively to the seminar work of the own group. Student passes the written or otherwise arranged exam with good marks.

  Excellent

  Student’s motivation to participate to the lectures is good, some absences are possible. Student participates actively to the seminar work of the own group. Student passes the written or otherwise arranged exam with excellent marks.

•   Renewable Energy 5E00BH56-3011 30.08.2021-31.12.2021  5 cr  (21KVIENVE, ...) +-
  Learning outcomes of the course unit

  After completing this course student has basic knowledge on different renewable energy production methods and sources of renewable energy. Different energy production methods and types of renewable energy are introduced to that extent that student is able to evaluate and assess their feasibility in dfferent situations.

  Prerequisites and co-requisites

  The course is not recommended for first or second year students. Before taking this course, you should have completed all of your basic studies, especially the basic studies in mathematics, physics and chemistry. In addition, it is recommended that you have completed a basic course in environmental technology, for example 5E00BF93 Basic in Environmental Technology and Management or similar.

  Course contents

  Renewable energy production technologies and implementations, processes, economy and potential

  ---

  Name of lecturer(s)

  Hilda Szabo

  Recommended or required reading

  Materials available in Moodle. In addition recommended reading:
  IEA. 2020. World Energy Outlook 2020. Executive summary.
  IEA. 2021. Global Energy Review 2021. Part of Global Energy Review.

  Planned learning activities and teaching methods

  The course consists of lectures by different professionals who present different renewable energy technologies. The course includes contact teaching, distance teaching, assignments and mini exams.

  Assessment methods and criteria

  Assessment is based on four mini exams and assignments. Active participation is warmly recommended and can affect the grade positively.

  Language of instruction

  English

  Timing

  30.08.2021 - 31.12.2021

  Registration

  01.07.2021 - 15.08.2021

  Credits

  5 cr

  Group(s)

  21KVIENVE

  18IDEE

  20KVTBIOT

  Seats

  25 - 40

  Teacher(s)

  Eero Kulmala, Aki Korpela, Sakari Lepola, Noora Markkanen, Perttu Arminen

  Unit, in charge

  Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Completion alternatives

  No alternative ways to complete the course. Participation to lectures is warmly recommended.

  Exam schedule

  There will be four mini exams during the course. Dates will be given during the course.

  International connections

  International study group

  Students use of time and load

  33h hours of contact teaching, 102h of individual learning

  Content periodicity

  Consists of 5 different themes. Order and timings are presented in the introduction lecture and informed in Moodle.

  Assessment criteria

  Not approved

  Some of the assignments not submitted or accepted and / or the achieved competence is insufficient.

  Satisfactory

  All assignments are accepted and minimum points for mini exams received. Achieved competence is sufficient, but demonstrate narrow understanding.

  Good

  All assignments are accepted or well done. Achieved competence (based on assignments, class discussions and exam results) represents fluent understanding on the core concepts, renewable energy technologies and processes.

  Excellent

  All assignments are well done. Achieved competence (based on assignments, class discussions and exam results) represents excellent understanding on the core concepts, renewable energy technologies and processes.

•   Swedish Language, Spoken 5N00DY34-3002 30.08.2021-10.12.2021  2 cr  (20I231A) +-
  Learning outcomes of the course unit

  No description in English. The course is for native Finnish speakers only.

  Prerequisites and co-requisites

  Lukion ruotsin oppimäärä: keskipitkässä ruotsissa yo-arvosana magna, B1-tason kielitaito tai opintojakso: ”Grundkurs i svenska för teknikbranschen”. (not translated)

  Course contents

  No description in English. The course is for native Finnish speakers only.

  Assessment criteria

  Satisfactory

  Opiskelija osaa kertoa pääosin ymmärrettävästi mutta lyhyesti ja yksipuolisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa. Opiskelija osaa hankkia ja ymmärtää oman alansa tietoa helppolukuisista lähteistä.
  
  Opiskelija osaa esitellä yksinkertaisesti keskeisimmät asiat yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista sekä selviytyy pääosin ymmärrettävästi tavallisimmista keskusteluista.
  
  Opiskelija osaa toimia ennakoitavissa toimenkuvansa vaatimissa työelämäkontakteissa, esim. sähköisessä viestinnässä, puhelinviestinnässä, neuvontatilanteissa, palavereissa ja raportoinneissa.
  
  Opiskelija osaa tulkita oman alansa yksinkertaisia ohjeistuksia ja laatia niitä pääosin ymmärrettävästi. (not translated)

  Good

  Opiskelija osaa kertoa keskeiset asiat koulutuksestaan, työkokemuksestaan ja -tehtävistään eheänä kokonaisuutena esim. työnhakutilanteessa.
  
  Opiskelija osaa hankkia, käsitellä ja soveltaa oman alansa tietoa keskeisimmistä lähteistä ja seurata oman alansa kehitystä yleisellä tasolla.
  
  Opiskelija osaa esitellä keskeisimmät asiat yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista sekä keskustella näistä aiheista.
  
  Opiskelija osaa hoitaa keskeisimpiä toimenkuvansa vaatimia työelämäkontakteja, esim. sähköistä viestintää, puhelinviestintää, neuvontatilanteita, palavereja ja raportointia.
  
  Opiskelija osaa laatia ja ymmärtää oman alansa ohjeistuksia melko hyvin. (not translated)

  Excellent

  Opiskelija osaa kertoa monipuolisesti ja tarkoituksenmukaisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa.
  
  Opiskelija osaa itsenäisesti ja monipuolisesti hankkia, käsitellä ja soveltaa oman alansa tietoa ja seurata alansa ammatillista kehitystä laaja-alaisesti.
  
  Opiskelija osaa esitellä sujuvasti yritysten ja organisaatioiden toimintaa, tuotteita, prosesseja ja palveluita sekä keskustella aloitteellisesti näistä aiheista. Opiskelija osaa hoitaa vaivattomasti ja asianmukaisesti toimenkuvansa vaatimia työelämäkontakteja, esim. sähköistä viestintää, puhelinviestintää, neuvontatilanteita, palavereja ja raportointia.
  
  Opiskelija osaa ymmärtää vaikeuksitta ja laatia selkeitä oman alansa ohjeistuksia. (not translated)

  Further information

  The course is for native Finnish speakers only.

  ---

  Name of lecturer(s)

  Katri Kallinen

  Language of instruction

  Timing

  30.08.2021 - 10.12.2021

  Registration

  01.05.2021 - 30.09.2021

  Credits

  2 cr

  Group(s)

  20I231A

  Seats

  0 - 40

  Teacher(s)

  Katri Kallinen

  Further information for students

  5N00DY32-3002 Svenska för teknikbranschen - skriftlig färdighet ja 5N00DY34-3002 Svenska för teknikbranschen - muntlig färdighet opetetaan yhtenä toteutuksena.
  
  Svenska för teknikbranschen - muntlig färdighet -opintojakson kuvaus löytyy toteutuksesta 5N00DY32-3002. (not translated)

  Unit, in charge

  Electrical and Automation Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

•   Swedish Language, Written 5N00DY32-3002 30.08.2021-10.12.2021  2 cr  (20I231A) +-
  Learning outcomes of the course unit

  No description in English. This course is for native Finnish speakers only.

  Prerequisites and co-requisites

  Lukion ruotsin oppimäärä: keskipitkässä ruotsissa yo-arvosana magna, B1-tason kielitaito tai opintojakso: ”Grundkurs i svenska för teknikbranschen”. (not translated)

  Course contents

  No description in English. This course is for native Finnish speakers only.

  Assessment criteria

  Satisfactory

  Opiskelija osaa kertoa pääosin ymmärrettävästi mutta lyhyesti ja yksipuolisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa. Opiskelija osaa hankkia ja ymmärtää oman alansa tietoa helppolukuisista lähteistä.
  
  Opiskelija osaa esitellä yksinkertaisesti keskeisimmät asiat yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista sekä selviytyy pääosin ymmärrettävästi tavallisimmista keskusteluista.
  
  Opiskelija osaa toimia ennakoitavissa toimenkuvansa vaatimissa työelämäkontakteissa, esim. sähköisessä viestinnässä, puhelinviestinnässä, neuvontatilanteissa, palavereissa ja raportoinneissa.
  
  Opiskelija osaa tulkita oman alansa yksinkertaisia ohjeistuksia ja laatia niitä pääosin ymmärrettävästi. (not translated)

  Good

  Opiskelija osaa kertoa keskeiset asiat koulutuksestaan, työkokemuksestaan ja -tehtävistään eheänä kokonaisuutena esim. työnhakutilanteessa.
  
  Opiskelija osaa hankkia, käsitellä ja soveltaa oman alansa tietoa keskeisimmistä lähteistä ja seurata oman alansa kehitystä yleisellä tasolla.
  
  Opiskelija osaa esitellä keskeisimmät asiat yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista sekä keskustella näistä aiheista.
  
  Opiskelija osaa hoitaa keskeisimpiä toimenkuvansa vaatimia työelämäkontakteja, esim. sähköistä viestintää, puhelinviestintää, neuvontatilanteita, palavereja ja raportointia.
  
  Opiskelija osaa laatia ja ymmärtää oman alansa ohjeistuksia melko hyvin. (not translated)

  Excellent

  Opiskelija osaa kertoa monipuolisesti ja tarkoituksenmukaisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa.
  
  Opiskelija osaa itsenäisesti ja monipuolisesti hankkia, käsitellä ja soveltaa oman alansa tietoa ja seurata alansa ammatillista kehitystä laaja-alaisesti.
  
  Opiskelija osaa esitellä sujuvasti yritysten ja organisaatioiden toimintaa, tuotteita, prosesseja ja palveluita sekä keskustella aloitteellisesti näistä aiheista. Opiskelija osaa hoitaa vaivattomasti ja asianmukaisesti toimenkuvansa vaatimia työelämäkontakteja, esim. sähköistä viestintää, puhelinviestintää, neuvontatilanteita, palavereja ja raportointia.
  
  Opiskelija osaa ymmärtää vaikeuksitta ja laatia selkeitä oman alansa ohjeistuksia. (not translated)

  Further information

  Riittävä suomen kielen taito; vaihtoehtoinen suoritustapa: näyttökoe. (not translated)

  ---

  Name of lecturer(s)

  Katri Kallinen

  Recommended or required reading

  Joni Sallila: Protocall – Teknikbiten, Tammertekniikka 2016.
  Ammattialakohtaiset tekstit ilmoitetaan kurssin aikana.
  Moodlesivu. (not translated)

  Planned learning activities and teaching methods

  Lähiopetus, harjoitukset, tentti, itsenäinen verkko-opiskelu, alkutesti (not translated)

  Assessment methods and criteria

  Asteikko 0-5. Kielioppitesti (väh.) 25/50 pistettä. Kirjallinen ja suullinen koe. Opetuksen läsnäolovaatimus: 80 %. (not translated)

  Language of instruction

  Timing

  30.08.2021 - 10.12.2021

  Registration

  01.05.2021 - 30.09.2021

  Credits

  2 cr

  Group(s)

  20I231A

  Seats

  0 - 40

  Teacher(s)

  Katri Kallinen

  Further information for students

  Esitiedot Lukion ruotsi tai vastaava kielitaito. B1-tason kielitaito.
  Oppimistavoitteet: Opiskelijalla on sellainen koulutusohjelman mukainen ruotsin kielen kirjallinen ja suullinen taito, joka ammatin harjoittamisen ja ammatillisen kehityksen kannalta on tarpeellinen.
  Opiskelija selviytyy oman ammattialansa kirjallisista ja suullisista tehtävistä pohjoismaissa sekä kaksikielisellä alueella Suomessa.
  Opiskelija osaa kertoa työympäristöstään sekä oman alansa toiminnoista.
  Tieto virtuaalisuudesta opiskelijalle: Verkkototeutus. (not translated)

  Unit, in charge

  Electrical and Automation Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Completion alternatives

  Näyttökoe (Katri Kallinen) (not translated)

  Exam schedule

  Kielioppitesti Syyskuu 2021
  Kirjallinen koe: Marraskuu 2021
  Suullinen koe: Marraskuu 2021
  Kirjallisen 1. uusinta Joulukuu 2021
  Kirjallisen 2. uusinta Joulukuu 2021/Tammikuu 2022 (not translated)

  Students use of time and load

  4 op = 108 tunnin työskentely (kirjallinen ja suullinen opetetaan yhtenä kurssina) (not translated)

  Content periodicity

  Kommunikaatiotilanteet: puhelin, s-posti, lentokenttä, tehdasalue, tapaaminen, ihmisten esittely toisilleen, tekniikan alat, tienneuvominen, kysyminen, taulukoista kertominen, asennusmanuaalien terminologiaa, vian etsiminen, hotellissa asuminen, tuotekuvaus, neuvottelu, tehdaskierros, ravintola.
  Ammattialakohtaiset lisätekstit. Peruskieliopin kertaus + kielioppitesti. (not translated)

  Assessment criteria

  Not approved

  Opiskelija ei osaa kertoa koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa. Opiskelija ei osaa hankkia eikä ymmärrä oman tekniikan alansa tietoa helppolukuisista lähteistä.
  Opiskelija ei osaa esitellä keskeisimpiä asioita yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista eikä selviydy ymmärrettävästi tavallisimmista keskusteluista.
  Opiskelija ei osaa toimia ennakoitavissa toimenkuvansa vaatimissa työelämäkontakteissa. Opiskelija ei osaa laatia esim. sähköpostiviestejä, reklamaatioita tai raportteja.
  Opiskelija ei osaa tulkita oman alansa yksinkertaisia teknisiä ohjeistuksia tai laatia niitä. (not translated)

  Satisfactory

  Opiskelija osaa kertoa pääosin ymmärrettävästi mutta lyhyesti ja yksipuolisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa. Opiskelija osaa hankkia ja ymmärtää oman tekniikan alansa tietoa helppolukuisista lähteistä.
  Opiskelija osaa esitellä yksinkertaisesti keskeisimmät asiat yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista sekä selviytyy pääosin ymmärrettävästi tavallisimmista keskusteluista.
  Opiskelija osaa toimia ennakoitavissa toimenkuvansa vaatimissa työelämäkontakteissa, esim. sähköpostiviestit, reklamaatiot, puhelintilanteet ja raportoinnit.
  Opiskelija osaa tulkita oman alansa yksinkertaisia teknisiä ohjeistuksia ja laatia niitä pääosin ymmärrettävästi. (not translated)

  Good

  Opiskelija osaa kertoa keskeiset asiat koulutuksestaan, työkokemuksestaan ja -tehtävistään eheänä kokonaisuutena esim. työnhakutilanteessa.
  Opiskelija osaa hankkia, käsitellä ja soveltaa oman tekniikan alansa tietoa keskeisimmistä lähteistä ja seurata oman alansa kehitystä yleisellä tasolla.
  Opiskelija osaa esitellä keskeisimmät asiat yritysten ja organisaatioiden toiminnasta, tuotteista, prosesseista ja palveluista sekä keskustella näistäaiheista.
  Opiskelija osaa hoitaa keskeisimpiä toimenkuvansa vaatimia työelämäkontakteja, esim. sähköpostiviestejä, reklamaatioita, puhelintilanteita ja raportointia.
  Opiskelija osaa laatia ja ymmärtää oman alansa teknisiä ohjeistuksia melko hyvin (not translated)

  Excellent

  Opiskelija osaa kertoa monipuolisesti ja tarkoituksenmukaisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa.
  Opiskelija osaa itsenäisesti ja monipuolisesti hankkia, käsitellä ja soveltaa oman tekniikan alansa tietoa ja seurata alansa ammatillista kehitystä laaja-alaisesti.
  Opiskelija osaa esitellä sujuvasti yritysten ja organisaatioiden toimintaa, tuotteita, prosesseja ja palveluita sekä keskustella aloitteellisesti näistä aiheista. Opiskelija osaa hoitaa vaivattomasti ja asianmukaisesti toimenkuvansa vaatimia työelämäkontakteja,
  esim. sähköpostiviestejä, reklamaatioita, puhelintilanteita ja raportointia.
  Opiskelija osaa ymmärtää vaikeuksitta ja laatia selkeitä oman alansa teknisiä ohjeistuksia. (not translated)

•   Waste Management and Engineering 5E00BG68-3007 01.09.2021-17.12.2021  5 cr  (20KVTBIOT) +-
  Learning outcomes of the course unit

  After completing this course student:
  - is familiar with the principles and practises of waste management
  - knows waste legislation and its applications
  - knows the waste management techniques
  - knows waste recycling and the secondary uses of waste material
  - can recycle and manage recycling systems
  - knows the principles of landfill construction and management of waste management sites
  - can compost and do simple laboratory analyses concerning biowaste and compost quality
  - has adopted the 3R principle and understands the necessity of reducing waste amounts an defficient secondary use of waste materials

  Prerequisites and co-requisites

  Basic Mathematics, Physics and Chemistry courses, Basics for Environmental Technology and Management

  Course contents

  - Composition, collection, transportation and treatment of waste material
  - Waste legislation, policies and regulations
  - Waste treatment technologies (landfills and their operation, waste incineration, biowaste treatment, hazardours waste treatment)
  - Laboratory exercises: composting, leachate tests

  ---

  Recommended or required reading

  material found in Moodle

  Planned learning activities and teaching methods

  Lectures, discussions, assignments, presentations, excursions, learning diary, laboratory

  Assessment methods and criteria

  Min attendance to the lectures is 60 % and laboratory work 100 %.
  Grade is based on the presentation, laboratory work and report, quizzes and final exam.

  Language of instruction

  English

  Timing

  01.09.2021 - 17.12.2021

  Registration

  01.05.2021 - 01.10.2021

  Credits

  5 cr

  Group(s)

  20KVTBIOT

  Teacher(s)

  Johannes Jermakka, Seija Haapamäki

  Further information for students

  Moodle is used for communication, assignment submissions and course materials.

  Unit, in charge

  Bioproduct Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  TAMK Main Campus

  Evaluation scale

  0-5

  Completion alternatives

  no alternative ways to conduct the course

  Training and labour cooperation

  excursions, details told later

  International connections

  international study group

  Students use of time and load

  5cr = 135 hours of work

  Assessment criteria

  Not approved

  Attendance to lectures (including excursions) is less than 60 % and laboratory work less than 100 % or any of the following is missing: presentations, learning diary, laboratory work report, short tests (quizzes) undone or failed.

  Satisfactory

  Minimum attendance requirements fullfilled and other given tasks done in a satisfactory level. In this case the average knowledge of the taught subjects is in the basic level.

  Good

  The student shows understanding of the waste management systems and the student is able to apply some of the knowledge gained during the course when doing the assignments. The student is able to express thoughts and reflections in his/her learning diary. The student knows group work skills. The student is able to utilize the possibility for co-operation and collective learning by participating the lectures, excursions and group works. The students is able to work according to instructions given and by meeting the deadlines.

  Excellent

  The student shows understanding of the waste management systems and the student is able to apply the knowledge gained during the course when doing the assignments. The student is able to analytically express thoughts and reflections in his/her learning diary. The student knows excellent group work skills. The student is able to utilize the possibility for co-operation and collective learning by participating the lectures, excursions and group works in an active manner. The students is able to work according to instructions given and by meeting the deadlines.

Implementations in academic year 2022 - 2023

There is no realizations attached to this degree programme.