Implementations in academic year 2017 - 2018

• Advanced Water and Wastewater Engineering 5E00BH50-3003 01.08.2017-31.12.2017  5 cr  (14IENVE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows the physical, chemical and biological unit operations applied in water and wastewater treatment
  - can select the proper treatment methods for the purification of different types of raw waters and wastewaters
  - can solve problems related to processes used
  - can perform the laboratory exercises of wastewater and water management
  - can design wastewater treatment systems for rural areas

  Course contents

  Physical , chemical and biological unit operations used in water and wastewater treatment, drinking water production, wastewater treatment and sludge processing, laboratory exercises: activated sludge analysis, activated sludge process, coagulation and flocculation.

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  Name of lecturer(s)

  Recommended or required reading

  Handouts posted in Tabula
  Textbook: George Tchobanoglous & Edward D. Schroeder: Water Quality

  Planned learning activities and teaching methods

  Teach-in, field excursion, assignments,laboratory work, group work, exam

  Assessment methods and criteria

  The course consists of lectures and discussions, exercises, field excursion of which students write report, compulsory laboratory exercise (follow up of a pilot wastewater treatment plant during a study-period: periodical sampling, sample analyses) and exam. Together these form the course grade as follows:
  short assignments max. 40 points; laboratory report max. 30 points; exam max. 30 points
  Grade 0: 0-29 points; grade 1: 30-44 points; grade 2: 45-59 points; grade 3:60-74 points; grade 4: 75-89 points; grade 5: 90-100 points.

  Language of instruction

  English

  Timing

  01.08.2017 - 31.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 14IENVE

  Seats

  16 - 32

  Teacher(s)

  Mika Nieminen, Hilda Szabo, Renja Yrjönen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Exam schedule

  Exam at the end of the course.

  Content periodicity

  Physical, chemical and biological water and wastewater treatment units, natural wastewater treatment, alternative wastewater management options.

  Assessment criteria

  Not approved

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is insufficient.
  This means that
  -some of the assignments were done acceptably
  -the student is not familiar with the basic concepts discussed during the course
  -can perform the laboratory measurements and experiments under supervision
  -has no basic skills in reporting the results of the measurements and experiments
  -seldom and inactive participation in the lectures

  Satisfactory

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is sufficient but narrow.
  This means that
  -some of the assignments were done acceptably
  -the student is familiar with the basic concepts discussed during the course but often makes mistakes when applying them
  -can perform the laboratory measurements and experiments under supervision
  -has basic skills in reporting the results of the measurements and experiments
  -seldom and inactive participation in the lectures

  Good

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is structural.
  This means that:
  -most of the assignments were done and accepted
  -exam shows that the student is familiar with the concepts discussed during the course and can apply them in most of the situations
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course
  -can solve model exercise and new exercises correctly
  -can perform laboratory measurements and experiments independently
  -the reporting of the laboratory results shows that the student attends to apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed

  Excellent

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is wide.
  This means that:
  -the assignments were done excellently
  -student is fluent in the basic concepts and phenomena related to the subjects discussed during the course
  -can solve model exercise and new exercises correctly, shows creativity in solving tasks
  - can perform simple laboratory measurements and experiments independently
  -the reporting of the laboratory results shows that the student can apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed, eventually brings up new subject of interest

• Basic Chemistry 5E00BF56-3005 01.08.2017-31.12.2017  5 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - understands the basic laws of chemistry
  - can write chemical formulas
  - can write and balance chemical equations
  - can solve problems related to chemical quantities, like mol, molar mass, molecular formula
  - Knows the gas laws, the properties of liquids and solids
  - can calculate concentrations
  - can solve problems related to: gas laws and exotherm and endotherm processes.

  Course contents

  Measurements, atoms and elements, molecules and compounds, chemical quantities, chemical reactions, structures of solids and liquids, gases, solutions.

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  Name of lecturer(s)

  Planned learning activities and teaching methods

  Contact teaching, exercises, self-study, assignments, laboratory exercises

  Assessment methods and criteria

  Grading scale is 0-5. The course grade will form according to the points collected as follows:
  -6 short assignments (max 5 points/assignment), containing the home exercises which are given weekly max.30 points
  -Three laboratory reports (max 15 points/total)
  -Exam max.50 points (30 + 20 points) and safety exam max. 5 points
  Grading: grade 0: 0-29 points; grade 1: 30-44 points; grade 2: 45-59 points; grade 3:60-74 points; grade 4: 75-89 points; grade 5: 90-100 points

  Language of instruction

  English

  Timing

  01.08.2017 - 31.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 17IDEE

  Seats

  30 - 35

  Teacher(s)

  Eeva-Leena Tuominen, Hilda Szabo, Renja Yrjönen

  Further information for students

  At least 60 % attendance to courses+ exercise sessions required
  -Laboratory works and reporting are compulsory
  -Before starting the laboratories each student has to pass a safety exam (Week 44 in period II)
  -Exam is compulsory (in two parts or retake)

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Students use of time and load

  Contact lessons, discussions 70h; self-study 65h. Total 135h

  Content periodicity

  Atomic structure, Periodic table, chemical bonds, chemical quantities, chemical reactions, concentrations, laboratory safety, three laboratory exercises

  Assessment criteria

  Not approved

  The student might have passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student might have participated in the exam.
  Overall the achieved competence is insufficient. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is not familiar with the basic concepts and phenomena related to the subjects discussed during the course
  -cannot write and balance chemical equations and cannot solve model exercises correctly
  -can perform simple laboratory measurements and soil sample analysis under supervision
  -has basic skills in reporting the results of the analysis

  Satisfactory

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is sufficient but narrow. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is familiar with the basic concepts and phenomena related to the subjects discussed during the course: atoms and elements, periodicity, chemical bonds, chemical quantities.
  -can write and balance chemical equations and can solve model exercises correctly
  -can perform simple laboratory measurements and soil sample analysis under supervision
  -has basic skills in reporting the results of the analysis

  Good

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is structural. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course: atoms and elements, periodicity, chemical bonds, chemical quantities.
  -can solve model exercise and new exercises correctly
  - can perform simple laboratory measurements and soil sample analysis independently
  -the reporting of the laboratory results shows that the student attends to apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed

  Excellent

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is wide. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course: atoms and elements, periodicity, chemical bonds, chemical quantities
  -can solve model exercise and new exercises correctly, shows creativity in solving tasks
  - can perform simple laboratory measurements and soil sample analysis independently
  -understands the background of the analytical method
  -the reporting of the laboratory results shows that the student can apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed, eventually brings up new subject of interest

  Approved / Failed

  The student might have passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student might have participated in the exam.
  Overall the achieved competence is insufficient. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is not familiar with the basic concepts and phenomena related to the subjects discussed during the course
  -cannot write and balance chemical equations and cannot solve model exercises correctly
  -can perform simple laboratory measurements and soil sample analysis under supervision
  -has basic skills in reporting the results of the analysis

• Computer and Software Tools 5E00BF84-3005 28.08.2017-22.10.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course students have achieved the following skills:
  - to write, present and manage numerical and written data with the aid of computers and software.
  - to use appropriate TAMK computer services and network.

  Course contents

  Basic use of Microsoft's Word, Excel and Power Point softwares. TAMK computer services for students.

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  Name of lecturer(s)

  Recommended or required reading

  TABULA:
  5E00BF84-3005 Computer and Software Tools
  Cource key: ict

  Planned learning activities and teaching methods

  Contact teaching, exercises, self-study, assignments

  Assessment methods and criteria

  Grading scale is 0-5. The grade is given according to the points given on the mandatory practical work (maximum 30 points). The participant can get maximum 6 extra points from the voluntary computer class exercises. The exercises are to be made only during the class sessions.

  Language of instruction

  English

  Timing

  28.08.2017 - 22.10.2017

  Registration

  01.05.2017 - 08.09.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  16 - 35

  Teacher(s)

  Kari Naakka

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Completion alternatives

  The course can be completed by making only an acceptable practical. The practical work must be made within the course schedule for the returns.

  Exam schedule

  No exam is used in this course
  Return date periods for the practical work as well as for the retake practical work are given during the course.
  More detailed instructions will be given in the practical work instructions.

  Students use of time and load

  Approximately 28 hours of computer class training sessions and approximately 53 hours of self study. Total 81 hours.

  Content periodicity

  TAMK network and computer services
  MS Excel
  MS Word
  MS PowerPoint

  Assessment criteria

  Not approved

  No practical work is returned within the given time limits. Or the returned practical work does not meet the given minimum requirements.

  Satisfactory

  Knowledge and understanding of the core network services of TAMK. The basic skills in using Office programs of Word, Excel and PowerPoint. Basic skills in creating reports with Office programs.

  Good

  Knowledge and understanding of the core network services of TAMK. The fluent skills in using Office programs of Word, Excel and PowerPoint. Fluent skills in creating reports with Office programs. The ability to use some advanced methods of Office programs in appropriate parts of the reports or in Office programs.

  Excellent

  Knowledge and understanding of the core network services of TAMK. The fluent skills in using Office programs of Word, Excel and PowerPoint. Fluent skills in creating reports with Office programs. The ability to use many advanced methods of Office programs. The recognition and fluent use of appropriate report specific basic and advanced features of Office programs and use of those in reports or in Office programs

• Contaminated Soils 5E00BH49-3002 28.08.2017-11.12.2017  4 cr  (14IENVE) +-
  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.

  Course contents

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

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  Name of lecturer(s)

  Recommended or required reading

  Keijzer et al. 2006. In situ soil and groundwater remediation: theory and practice. Tauw, the Netherlands.
  Hester, R.E., Harrison, R.M. 2001. Assessment and Reclamation of Contaminated Land. Issues in Environmental Science and Technology. RSC. ISBN 0-85404-275-X. EBook/Knovel.
  Strange, J. and Langdon, H. 2008. Contaminated Land - Investigation, Assessment and Remediation (2nd Edition) ICE design and practice guides. Thomas Telford. ISBN 978-0-7277-3482. eBook/Knovel.
  Muñiz-Hernández, Saé, Bernardino Velázquez-Fernández, Jesús. 2013. Bioremediation: Processes, Challenges and Future Prospects. Hauppauge, New York : Nova Science Publishers. ISBN 9781629485133. EBook/EBSCOhost.
  Murphy, BL, & Morrison, RD 2007, Introduction to Environmental Forensics (2), Academic Press, Burlington, US. Available from: ProQuest ebrary. [14 August 2016]. Chapter 2: Site History: The First Tool of the Environmental Forensics Team
  http://site.ebrary.com.elib.tamk.fi/lib/tamperepoly/reader.action?ppg=50&docID=10186017&tm=1471177699469
  Other written material available via Tabula

  Planned learning activities and teaching methods

  Coaching will be used as the main pedagogical method on this course. The course consists of varying weekly themes, which include: weekly reading materials and topic-related Tabula assignments, contact lessons where weekly themes are discussed, and a research project related to themes announced during the course.

  Assessment methods and criteria

  Assessment of the course is based on weekly assignments (10 pcs, 60 %) and final report (40 %). In order to pass the course, all assignments have to be returned. There are deadlines for all assignments, if assignments are after the given deadlines, it will have an effect on the final grade.
  
  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

  28.08.2017 - 11.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 4 cr

  Group(s)

  • 14IENVE

  Seats

  25 - 35

  Teacher(s)

  Mika Nieminen, Hilda Szabo

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  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.

  Students use of time and load

  Contact lessons and laboratory exercises 50 hours
  Self-study (reports, exercises, exam) 58 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.

  Content periodicity

  All timetables and lecture topics can be read from the Lukkarikone. May there be any changes in the timetable or content, the course participants will be notified about the changes during the course.

  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.

• Ecotoxicology 5E00BG73-3003 01.08.2017-22.10.2017  4 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows the classes of inorganic and organic pollutants and their fate in the environment
  - understands the relationship between chemical and biological environment
  - can evaluate and anlyse the ecotoxicological risks and consequences to the environment
  - understands REACH and can implement it in practise
  - knows the basic concepts and research methods in ecotoxicology and can use them in practise

  Prerequisites and co-requisites

  Basic Chemistry, Inorganic and Analytical Chemistry, Environmental Chemistry or corresponding courses

  Course contents

  environmental pollutants, release, transport, effects and fate of environmental pollutants in organisms, principles of toxicology, ecotoxicology and environmental toxicology, ecotoxicity tests and their interpretation

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  Name of lecturer(s)

  Planned learning activities and teaching methods

  Contact teaching,self study,discussions, assignments, summary report/essay,laboratory exercise, exam and seminar presentations

  Assessment methods and criteria

  The course consists of lectures and discussions,assignments,daily tasks, group work, laboratory exercise (1 cu) and exam. Together these form the course grade as follows:
  Individual assignments (3 / accepted) 15%; “Daily” tasks 15%; Group work (compulsory) 15%; Exam (compulsory)35%; Laboratory exercise 20%
  The course grade is calculated as a weighted average from the grades of each task. The exam will be an open book exam.
  This course is offered for students from TUT as well, as a 3 credits course without the laboratory exercise.

  Language of instruction

  English

  Timing

  01.08.2017 - 22.10.2017

  Registration

  12.06.2017 - 07.09.2017

  Credits

  • 4 cr

  Group(s)

  • 15IDEE

  Teacher(s)

  Seija Haapamäki, Hilda Szabo

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Exam schedule

  Open book exam at the end of the course.

  Content periodicity

  The course has the following main topics:
  Basic concepts and research methods in toxicology, chemical and biological interactions, chemical hazardous to the health and the environment, environmental-based health problems, threshold values and their role, risk analysis

  Assessment criteria

  Not approved

  Student did not participate the exam and/or the laboratory exercise, or student participate the exam and laboratory exercise, but the achieved competence is insufficient. This means that the student is not familiar with the basic concepts related to the subjects discussed during the course.

  Satisfactory

  Student participated in the exam and laboratory exercises.
  Overall the achieved competence is sufficient but narrow.
  Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is familiar with the basic concepts and phenomena related to the subjects discussed during the course:
  -can solve model exercise correctly
  -has the basic skills in performing a laboratory exercise related to ecotoxicological testing
  -has basic skills in reporting the results of the testing

  Good

  Student participated in the exam and laboratory exercise.
  Overall the achieved competence is structural.
  Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course
  -can solve model exercise and new exercises correctly
  -student is clearly motivated and interested in the subjects discussed
  -has sufficient skills to be able to perform independently a laboratory exercise related to ecotoxicological testing
  -the reporting of the results shows that the student can apply the theoretical knowledge in explaining the results of testing, though

  Excellent

  Student participated in the exam and laboratory exercises.
  Overall the achieved competence is wide.
  Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course
  -can solve model exercise and new exercises correctly, shows creativity in solving tasks
  -student is clearly motivated and interested in the subjects discussed
  -has sufficient skills to be able to perform independently a laboratory exercise related to ecotoxicological testing
  -the reporting of the results shows that the student can apply the theoretical knowledge in explaining the results and can think about alternative solutions

• Energy Efficiency 5E00BH57-3003 01.01.2018-04.03.2018  4 cr  (14IENVE) +-
  Learning outcomes of the course unit

  After completing this course student
  - knows and understands possibilities of energy saving in industrial processes and facility management
  - knows the legislation related to energy management and efficiency in construction and facility management in order to discuss and evaluate the work of energy professionals

  Course contents

  Energy saving methods, insulation of buildings, use of energy

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  Name of lecturer(s)

  Language of instruction

  English

  Timing

  01.01.2018 - 04.03.2018

  Registration

  23.10.2017 - 07.01.2018

  Credits

  • 4 cr

  Group(s)

  • 14IENVE

  Teacher(s)

  Sakari Lepola

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

• English for Students of Environmental Engineering 5N00BN96-3004 23.10.2017-31.12.2017  3 cr  (16IDEE) +-
  Learning outcomes of the course unit

  After completing this course students:
  -are able to write clear, accurate and persuasive reports and other text types for an expert and general readership.
  - can interact effectively in meetings and negotiations, and make informative and convincing presentations.

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  Name of lecturer(s)

  Planned learning activities and teaching methods

  Workshops, written and spoken assignments.

  Assessment methods and criteria

  The grade is based on the following assignmnets:
  CV, cover letter and job interview
  Reflection on the job interview
  Negotiation task
  Blog text with appropriate referencing
  Completing interdisciplinary project

  Language of instruction

  English

  Timing

  23.10.2017 - 31.12.2017

  Registration

  17.08.2017 - 17.10.2017

  Credits

  • 3 cr

  Group(s)

  • 16IDEE

  Seats

  16 - 35

  Teacher(s)

  Taru Owston, Emmanuel Abruquah

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Completion alternatives

  Will be discussed at the beginning of the course.

  Exam schedule

  The grade is based on continuous assesment on tasks completed on time as well attendance, participation in class activities e.g. negotiation role play, meetings, etc.

  International connections

  International group.

  Students use of time and load

  Period 1:
  APPLYING FOR A JOB MODULE
  - two workshops and a job interview
  - individual tasks: searching for a job advertisement, cover letter and CV, video CV
  Period 2:
  WRITING TO A WIDER AUDIENCE
  NEGOTIATIONS
  INTERDISCIPLINARY PROJECT
  - weekly workshops
  - individual tasks: blog writing, preparation for negotiations, project tasks

  Content periodicity

  Applying for a job
  - business correspondence in English
  - analysing job advertisements
  - writing a CV
  - video CV
  - cover letter

  Assessment criteria

  Not approved

  Failure to complete tasks on time or according to the norms given.

  Satisfactory

  Student's English is mainly formal and accurate; the written and spoken tasks meet the norms given, references to source materials are incorporated consistently and in a variety of ways, source materials are adequately paraphrased. Spoken interaction is understandable.

  Good

  Student's English is mainly formal and accurate; the written and spoken tasks meet norms given, references to source materials are incorporated consistently and in a variety of ways, source materials are adequately paraphrased. Spoken interaction is relatively good.

  Excellent

  Student's English is mainly formal and accurate; reports meet norms for scientific writing, references to source materials are incorporated consistently and in a variety of ways, source materials are adequately paraphrased. Spoken interaction is excellent.

• Environmental Chemistry 5E00BG64-3004 28.08.2017-31.12.2017  6 cr  (16IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  -has basic knowledge in organic chemistry and biochemistry
  - understands and can explain environmental pollution phenomena, like acid rain, global warming, ozone destruction. Is familiar with the main classes of organic pollutants
  - is familiar with volumetric and instrumental analytical methods and can apply them in practise.

  Prerequisites and co-requisites

  5E00BF56 Basic Chemistry, 5E00BG51 Inorganic and Analytical Chemistry or corresponding courses

  Course contents

  hydrocarbons, organic compounds with functional groups, organic pollutants, volumetric analysis, spectroscopy, chromatography.

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  Name of lecturer(s)

  Recommended or required reading

  Handouts ( and exercises) and additional material posted in Tabula

  Planned learning activities and teaching methods

  Contact teaching, exercises,group work, self study, assignments, laboratory exercises, reporting, exam

  Assessment methods and criteria

  Grading scale is 0-5. The course grade will form according to the points collected as follows:
  - short assignments containing the home exercises which are given weekly: max. 20 points
  -group task, max.10 points
  -6 compulsory laboratory exercises and related reporting: max.30 points
  -Exam ( given in two parts): max. 20 +20 = 40 points
  Grading: grade 0: 0-29 points; grade 1: 30-44 points; grade 2: 45-59 points; grade 3:60-74 points; grade 4: 75-89 points; grade 5: 90-100 points.

  Language of instruction

  English

  Timing

  28.08.2017 - 31.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 6 cr

  Group(s)

  • 16IDEE

  Seats

  30 - 35

  Teacher(s)

  Eeva-Leena Tuominen, Anni-Kaisa Kurri, Renja Yrjönen, Hilda Szabo

  Further information for students

  Learning goals
  -to know the different groups of hydrocarbons, compounds with functional groups, large molecular compounds of biological importance – their properties, naming and roles
  -to understand the mechanisms of environmental pollution and to know the main pollutants of air, water and soil
  -to understand the fundamentals of qualitative, quantitative and instrumental analysis
  -to be familiar with volumetric and some instrumental analytical methods and to apply them in practice

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Exam schedule

  Two partial exams: one in the middle and the second at the end of the course. Retakes will be agreed later.

  Students use of time and load

  Contact lessons and discussions 43 h
  Laboratory exercises 36 h
  Self-study 78 h
  Exam and feedback 5
  Total 162 h

  Content periodicity

  Hydrocarbons, functional compounds (alcohols, aldehydes and ketones, carboxylic acids, esthers, amines, amides, halogenated compounds), biochemistry (carbohydrates, lipids, proteins, nucleic acids). Overview of the most important environmental pollutants. Overview of chemical processes in the environment. Volumetry, chromatography, atomic absorbtion spectroscopy, indicator microorganisms and related laboratory exercises.

  Assessment criteria

  Not approved

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is insufficient. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is not familiar with the basic concepts and phenomena related to the subjects discussed during the course: main classes of hydrocarbons and functional compounds, main classes of (organic) pollutants and environmental processes
  -cannot solve model exercises correctly
  -can perform volumetric, instrumental and simple microbiological analyses of soil samples or various water samples under supervision
  -has basic skills in reporting the results of the analysis

  Satisfactory

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is sufficient but narrow. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is familiar with the basic concepts and phenomena related to the subjects discussed during the course: main classes of hydrocarbons and functional compounds, main classes of (organic) pollutants and environmental processes
  - can solve model exercises correctly
  -can perform volumetric, instrumental and simple microbiological analyses of soil samples or various water samples under supervision
  -has basic skills in reporting the results of the analysis

  Good

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is structural. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course: main classes of hydrocarbons and functional compounds, main classes of (organic) pollutants and environmental processes
  -can solve model exercise and new exercises correctly, based on given models is able to write chemical reactions of the organic compounds correctly (oxidation, reduction, addition, esterification, peptide formation….)
  -can perform volumetric, instrumental and simple microbiological analyses of soil samples or various water samples independently
  -the reporting of the laboratory results shows that the student attends to apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed

  Excellent

  The student passed the safety exam before starting the laboratory work and participated in the laboratory work and did the laboratory reports. Student participated in the exam.
  Overall the achieved competence is wide. Student shows throughout the course (assignments, classroom discussions, laboratory exercises and exam) that:
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course: main classes of hydrocarbons and functional compounds, main classes of (organic) pollutants and environmental processes
  -can solve model exercise and new exercises correctly, shows creativity in solving tasks, is able to write chemical reactions of the organic compounds correctly (oxidation, reduction, addition, esterification, peptide formation….) independently
  -can perform volumetric, instrumental and simple microbiological analyses of soil samples or various water samples independently
  -understands the background of the analytical method
  -the reporting of the laboratory results shows that the student can apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed, eventually brings up new subjects of interest

• Finnish for Foreigners 1 5N00BN91-3005 23.10.2017-01.12.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After successful completion of the course students:
  - are able to pronounce Finnish quite correctly
  - can understand and use short and simply-structured Finnish expressions that concern some of the most common matters and situations related to everyday life (introducing oneself and one’s family, telling the time, buying and paying, timetables, asking and answering, possessing, place and location).

  Course contents

  - basics of the Finnish language
  - structural exercises
  - pronunciation exercises
  - conversational and drama exercises
  - listening comprehension exercises
  - reading comprehension exercises
  - written exercises.

  Further information

  The course is for students whose mother language is not Finnish

  ---

  Name of lecturer(s)

  Language of instruction

  English

  Timing

  23.10.2017 - 01.12.2017

  Registration

  18.09.2017 - 25.10.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  15 - 20

  Teacher(s)

  Marja Oksanen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

• Finnish for Foreigners 3 5N00BN97-3004 22.08.2017-01.12.2017  4 cr  (16IDEE) +-
  Learning outcomes of the course unit

  After successful completion of the course students:
  
  - are able to communicate professionally using the most essential and concrete matters relating to energy and environmental engineer’s work: to speak and write the basics of recycling and laboratory work
  - have clearly improved their oral and written competence
  - can produce past tense sentences with correct object forms quite well

  Prerequisites and co-requisites

  Level A2 (CEFR) Finnish skills or
  5N00BN91 and 5N00BN94 (Finnish for Foreigners 1 and 2)

  Course contents

  - basic professional Finnish for energy and environmental engineering students using material Hyvin menee 1, authentic materials as well as the materials created by the teacher
  - much speech communication and writing exercises

  Further information

  Level A2 (CEFR)
  The course is for students whose mother tongue is other than Finnish with basic skills of Finnish.

  ---

  Name of lecturer(s)

  Recommended or required reading

  Satu Heikkilä - Pirkko Majakangas: "Hyvin menee 1", authentic energy and environmental engineering material, material made and/or linked on the course-Tabula by the teacher, "Suomea oppimaan!" blog material

  Planned learning activities and teaching methods

  contact teaching, study conversation, cooperative learning, exercises, games, acting and activating writing

  Assessment methods and criteria

  Continuous assessment based on classwork, active participation (to pass the course the minimum attendance 80 % is required), accepted exercises, passed smaller tests and text tasks. The mark will be given on the strenght of activity, an object test, a professional video and results of written texts and comprehension tests.

  Language of instruction

  English

  Timing

  22.08.2017 - 01.12.2017

  Registration

  12.06.2017 - 06.09.2017

  Credits

  • 4 cr

  Group(s)

  • 16IDEE

  Seats

  15 - 25

  Teacher(s)

  Marja Oksanen

  Further information for students

  Level A1 - A2.

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Completion alternatives

  No.

  Training and labour cooperation

  No.

  Exam schedule

  The dates of smaller tests will be announced later on: there won't be a large final exam.

  International connections

  The whole group is international! Let's try to get some Finnish students along!

  Students use of time and load

  Two double contact lessons per week. Qite much independant work to strenghten the skills of basic Finnish.

  Content periodicity

  In the beginning of the course revising the contents learnt last year. Then essential Finnish in energy and environmental engineer's work - also a couple of new important structures.

  Assessment criteria

  Not approved

  Absences more than 20 % and/or undone/unaccepted tasks/tests.

  Satisfactory

  A student has completed all the assignments acceptably and attended at least 80 % of the contact lessons. A student can participate in a simple conversation on very familiar topics using memorized words and phrases.

  Good

  A student has an active attitude towards learning language and culture showing that by completing tasks according to the schedule.

  Excellent

  A student has a positive and active attitude towards learning language. She or he shows that he or she understands the importance of good Finnish skills in working life by completing tasks extraordinary way and showing her/his will to learn more.

• Finnish language and communication for Engineering Students 5N00BN93-3005 23.10.2017-01.12.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  Suoritettuaan opintojakson opiskelija:
  • osaa arvioida omaa viestintäosaamistaan
  • osaa hyödyntää saamaansa palautetta
  • ymmärtää viestintätaitojen merkityksen ja viestinnän prosessit
  • ymmärtää, millaista on tarkoituksenmukainen viestintä
  • haluaa kehittää suomen kielen ja viestinnän taitojaan osana omaa ammattitaitoaan
  • osaa toimia tavoitteellisesti alan vuorovaikutustilanteissa
  • antaa ja vastaanottaa palautetta työyhteisön viestintätilanteissa
  • kuunnella, havainnoida ja tulkita viestejä
  • tuntee yhteisön sisäisen ja ulkoisen viestinnän merkityksen
  • osaa viestiä asiantuntijana jäsentyneesti, ymmärrettävästi ja vakuuttavasti
  • osaa ottaa huomioon vastaanottajan, tilanteen ja alansa vaatimukset
  • osaa argumentoida ja vaikuttaa
  • osaa hankkia ja käyttää alansa tietoa kriittisesti
  • osaa työstää kohdeyleisölle kirjallisen ja suullisen esityksen, jota osaa tarvittaessa havainnollistaa visuaalisesti
  • tuntee työelämän tekstilajeja niihin liittyvine kielenkäyttösuosituksineen
  • käyttää kieltä alansa käytänteiden ja kielenkäyttösuositusten mukaisesti
  • toimii ammatillisissa viestintätilanteissa vastuullisesti ja sovittujen toimintatapojen mukaisesti
  • ymmärtää kulttuurin vaikutuksen viestintään ja yhteistyön merkityksen kulttuuritaustaltaan erilaisten ihmisten kanssa.

  Course contents

  • puheviestinnän perusteet (teoriaa ja harjoituksia)
  • ryhmätyötaidot (esim. palaverit)
  • oikeakielisyys
  • asiakirjaviestintä (esim. työhakemukset, tiedotteet).

  Further information

  The course is mandatory for native Finnish speakers.

  ---

  Name of lecturer(s)

  Language of instruction

  English

  Timing

  23.10.2017 - 01.12.2017

  Registration

  18.09.2017 - 25.10.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  15 - 20

  Teacher(s)

  Marja Oksanen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

• Fluid Mechanics and Thermophysics 5N00BF54-3005 23.10.2017-31.12.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows the fundamental laws of fluid mechanics and thermophysics
  - can describe phenomenona by using quantities and their dependences and make justified solutions of related problems
  - can calculate pressure, force and buoyancy in a fluid
  - can analyze fluid flow and effects of fluid resistance
  - knows the main laws of thermophysics and can predict the natural behaviour of a thermal system
  - can determine the state of a system in a basic thermophysical change
  - can apply heat transfer in practical situations

  Prerequisites and co-requisites

  Mechanics

  Course contents

  - Properties of static fluid, pressure and buoyancy
  - Laminar and turbulent flow, continuity equation, Bernoulli´s equation
  - Fluid resistance and viscosity
  - Temperature, heat and fundamental thermodynamic laws
  - Thermal expansion
  - Ideal gas equation
  - Heat capacities
  - Phase changes
  - Heat and humidity transfer
  - Heat pumps

  ---

  Name of lecturer(s)

  Language of instruction

  English

  Timing

  23.10.2017 - 31.12.2017

  Registration

  18.09.2017 - 17.10.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  30 - 35

  Teacher(s)

  Erkki Mäkinen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

• Functions and Matrices 5N00BF71-3005 23.10.2017-31.12.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course student is able to
  - understand the concept of a function and recognizes the characteristic properties of different basic functions
  - solve equations involving basic functions
  - recognize graphs of basic functions
  - perform basic calculations with matrices and apply them in practical problems

  Prerequisites and co-requisites

  Orientation for engineering mathematics or similar skills.

  Course contents

  Basic Functions and Terminology (Polynomial, Rational, Power, Exponential, Logarithmic and Trigonometric Functions), Graphs of Basic Functions, Equations, Matrix Operations, Group of Linear Equations

  ---

  Name of lecturer(s)

  Recommended or required reading

  All study material will be available on the course Tabula page (tabula.tamk.fi) in pdf format. Course enrollment key for the Tabula page will be given on the first lecture.

  Planned learning activities and teaching methods

  lectures,
  guided exercises
  collaborative learning
  exam

  Assessment methods and criteria

  Grading (0-5) is based on weekly exercises and final exam. Maximum score for the exam is 36 points, and additional points (max 3) are awarded for completing weekly homework exercises. To pass the course a student has to get al least 40 % of the maximum points in the exam.

  Language of instruction

  English

  Timing

  23.10.2017 - 31.12.2017

  Registration

  18.09.2017 - 17.10.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  1 - 35

  Teacher(s)

  Jukka Suominen

  Further information for students

  -

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Completion alternatives

  -

  Training and labour cooperation

  -

  Exam schedule

  Exam will be held in December 2017. There will also be two resit exams during the 3rd period, one in January 2018 and one in February 2018.

  International connections

  -

  Students use of time and load

  Total work 81 hours.
  lectures + guided exercises + collaborative learning 36 hours, exam 3 hours, rest 42 hours independent studying

  Content periodicity

  Contents and corresponding dates can be found on Tabula.

  Assessment criteria

  Not approved

  Student doesn't pass the final exam.

  Satisfactory

  Understanding of basic concepts.

  Good

  Understanding of advanced concepts and ability to apply them in basic technical problems.

  Excellent

  Ability to apply course topics in advanced problems.

• GIS and Remote Sensing Tools 5E00BH82-3002 08.09.2017-08.12.2017  5 cr  (14IENVE) +-
  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)

  Recommended or required reading

  Lecture slides and other materials will be available through the course's Tabula page.
  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.
  ArcGIS for Destop : http://desktop.arcgis.com/en/arcmap/
  QGIS: software downloading in own computers, exploring the functions of it with the course work data

  Planned learning activities and teaching methods

  The main teaching methods include contact teaching, exercises done in groups and individually, coursework, and exam. The exam will be held in the end of the course and it is mostly based on ArcGIS exercises.

  Assessment methods and criteria

  Exam: Open computer/book Tabula exam executed at TAMK in adp classroom by using ArcMap
  Course work: compulsory, passed/not passed; possibility to improve the final grade
  Report on the functions of QGIS; possibility to improve the final grade

  Language of instruction

  English

  Timing

  08.09.2017 - 08.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 14IENVE

  Seats

  20 - 25

  Teacher(s)

  Mika Nieminen, Eeva Sundström

  Further information for students

  Attendance at lectures in adp class is essential because the fundamentals of GIS is studied by ArcMap and also the coursework is carried out with that software.

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  2 cr

  Completion alternatives

  If you have work experience or studies on some other GIS software, please discuss alternative ways to do the course with the teacher(s).

  Training and labour cooperation

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

  Exam schedule

  xx.xx. Tabula exam, carried out in adp class F1-31
  xx.xx. Resit, Tabula exam, carried out in adp class F1-31

  Content periodicity

  Open file data and download services
  Coordinate systems
  Spatial data models, database management, visualization and thematic maps, searching functions, data entry, elementary proximity and overlay analysis
  Environmental change observations based on different-aged aerial images
  Satellite positioning

  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 gps device

  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
  - maintains data of different coordinate system

  Excellent

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

• Geometry and Vector Algebra 5N00BF69-3006 28.08.2017-22.10.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course student is able to
  - understand basic terminology of geometry
  - solve a scalene triangle
  - calculate areas and volumes of two- and three-dimensional objects
  - determine the center of mass of a plane region
  - perform basic vector calculations
  - apply vectors to technical problems
  - perform calculations with complex numbers

  Prerequisites and co-requisites

  Orientation for engineering mathematics or similar skills.

  Course contents

  Terminology of Geometry, Solving a Scalene Triangle, Areas and Volumes, Center of Mass of a Plane Region, Similarity, Scale, Vectors and Applications, Complex Numbers

  ---

  Name of lecturer(s)

  Recommended or required reading

  All study material will be available on the course Tabula page (tabula.tamk.fi) in pdf format. Course enrollment key for the Tabula page will be given on the first lecture.

  Planned learning activities and teaching methods

  lectures,
  guided exercises
  homework
  exam

  Assessment methods and criteria

  Grading (0-5) is based on weekly exercises and final exam. Maximum score for the exam is 36 points, and additional points (max 3) are awarded for completing weekly homework exercises. To pass the course a student has to get at least 12 points in the exam.

  Language of instruction

  English

  Timing

  28.08.2017 - 22.10.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  1 - 35

  Teacher(s)

  Jukka Suominen

  Further information for students

  -

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Completion alternatives

  -

  Training and labour cooperation

  -

  Exam schedule

  Exam will be held in November. There will be two resit exams during the 2nd period. Enrollment at least 7 days before the exam in Pakki.

  International connections

  -

  Students use of time and load

  Total work 81 hours.
  lectures + guided exercises + collaborative learning 33 hours, exam 3 hours, rest 45 hours independent studying

  Content periodicity

  Contents and corresponding dates can be found on Tabula.

  Assessment criteria

  Not approved

  Student doesn't pass the final exam.

  Satisfactory

  Understanding of basic concepts.

  Good

  Understanding of advanced concepts and ability to apply them in basic technical problems.

  Excellent

  Ability to apply course topics in advanced problems.

• Material Efficiency and Recycling 5E00BG81-3003 23.10.2017-31.12.2017  3 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows the uses of industrial side products as raw materials
  - knows the processes to manage industrial side-products
  - knows the main recycling industries and companies
  - is introduced to an innovative new uses and methods of recycling and efficient use of materials

  Prerequisites and co-requisites

  5E00BG61 Sustainable Industrial Production, 5E00BG69 Waste Management and Engineering

  Course contents

  sustainable resource utilization, green technologies, life cycle assessment, industrial ecology and material efficiency in industry

  ---

  Name of lecturer(s)

  Recommended or required reading

  in Tabula

  Planned learning activities and teaching methods

  Lectures, excursions, presentations, laboratory work.

  Assessment methods and criteria

  Participation to the lectures and excursions. Practical tasks fullfilled. Examination passed. Laboratorywork done.

  Language of instruction

  English

  Timing

  23.10.2017 - 31.12.2017

  Registration

  18.09.2017 - 17.10.2017

  Credits

  • 3 cr

  Group(s)

  • 15IDEE

  Seats

  35 - 40

  Teacher(s)

  Erkki Kiviniemi, Renja Yrjönen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  R&D proportion

  1 cr

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Completion alternatives

  None

  Training and labour cooperation

  Excursions, laboratory work, practical tasks from real life.

  Exam schedule

  In the end of the course. Announced later.

  International connections

  Tought in english, international group of students.

  Students use of time and load

  3 credits is 81 h of student work

  Content periodicity

  1 cr is lectured by Erkki Kiviniemi and 2 cr by Renja Yrjönen

  Assessment criteria

  Not approved

  Participation to the lectures minimal, laboratory work missing, has not participated to all excursions. Exam not passed.

  Satisfactory

  Participation to the lectures less than 50%, laboratory 100% and excursions some missing. Exam credit 1-2.

  Good

  Participation to the lectures 70%, laboratory 100% and excursions 100%. Exam credit 3-4.

  Excellent

  Participation to the lectures and laboratory and excursions 100%. Exam credit 4-5.

• Mechanics 5N00BF53-3005 28.08.2017-22.10.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - can use quantities and units
  - knows the fundamental laws of mechanics
  - can describe phenomenona by using quantities and their dependences and make justified solutions of related problems
  - can make and interprete graphical presentations

  Course contents

  - SI-system of quantities and units
  - Modelling of motion with constant velocity and constant acceleration
  - Force and Newton´s laws
  - Energy principles in mechanics
  - Modelling of rotational motion

  ---

  Name of lecturer(s)

  Recommended or required reading

  Randall Knight, Physics for Scientists and Engineers, preferably New International Edition, 3rd Edition, Pearson Education 2014.
  Technical Formulas, Tammertekniikka, 2002

  Planned learning activities and teaching methods

  Lecture
  Demonstration
  Exercises
  Preliminary tasks
  Learning with video material

  Assessment methods and criteria

  Evaluation is based on evaluation of
  - Conceptual exercises (max 5p)
  - Exercise sets (max 10p)
  - Measurement report (max 5p)
  - Exam (25p)
  - The sum of the exam points has to be at least 9 points and the total sum with exercises at least 14 points.
  Participation to class lectures is highly recommended.
  In the exercise review classes the ability to explain and justify the solutions is evaluated. Absence from review classes or inability to explain or justify the solution can cut these points by -50 % max.
  Participation to exams is compulsory.
  Grading:
  No regular studies no evaluation no resits
  0- 13 points 0 2 resits
  14 - 20 points 1
  21 - 26 points 2
  27 - 32 points 3
  33 - 38 points 4
  39 - 45 points 5

  Language of instruction

  English

  Timing

  28.08.2017 - 22.10.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  30 - 35

  Teacher(s)

  Erkki Mäkinen

  Further information for students

  Further information in tabula.tamk.fi

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Exam schedule

  Exam Oct 12th 2017
  Re-exams: Nov 21st 2017, and Jan 16th 2017

  Students use of time and load

  Lectures, exercise set reviews and exam 45 h
  Independent work ab. 35h
  Total ab. 80 h

  Content periodicity

  Introduction, SI-system, Unit conversions 6h
  Motion along a straight line 9 h
  Exercise set 1 3h
  Newton´s laws of motion 6 h
  Ex Set 2 3h
  Work and energy, energy principles 9h
  Exercise set 3 3h
  Exam 3h

  Assessment criteria

  Satisfactory

  Knowledge of the most essential phenomena and related quantities and units in mechanics. Capability to analyse, when guided qualitatively and quantitatively simple cases related phenomena similar to discussed examples.
  Min 9 points from the exams and total min 14 points with the exercises.

  Good

  In addition capability to apply the principles to new situations. Can use the terminology and models in presentations of justified qualitative and quantitative analyses of phenomena.
  Min 27 points total from exams and exercises.

  Excellent

  In addition versatile, fluent ability to analyse phenomena qualitatively and quantitaively realizing the limitations related to theories in use.
  Min 39 points total from the exams and exercises.

• Orientation for Engineering Mathematics 5N00BH84-3005 28.08.2017-22.10.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  Student is able
  -to operate with mathematical expressions related to technology
  -to formulate the mathematical model and solve the equations

  Course contents

  Mathematical Notations, Unit Conversations. Mathematical Expressions. Solving Linear, Quadratic and Pair of equations. Percentages. Solving Right Triangle. Simple Areas and Volymes.

  Further information

  This course is meant for students that need to update their mathematics and calculus skills for studying the mandatory Mathematics courses at TAMK.

  ---

  Name of lecturer(s)

  Language of instruction

  English

  Timing

  28.08.2017 - 22.10.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  30 - 35

  Teacher(s)

  Jukka Suominen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

• Physics Laboratories 5N00BG56-3004 28.08.2017-22.12.2017  3 cr  (16IDEE) +-
  Learning outcomes of the course unit

  After completing this course student can
  - make controlled physical measurements
  - evaluate reliability of measurements
  - report measurements according to standards and ethical principles
  - evaluate importance of measurements
  - plan, implement and analyze an own measurement

  Prerequisites and co-requisites

  Writing Scientific Reports in English, Mechanics, Fluid Mechanics and Thermophysics, Electrodynamics and Magnetism, Oscillation, Waves and Modern Physics

  Course contents

  Measurements of students own technical area
  Reporting of laboraratory works
  Project learning applications

  ---

  Name of lecturer(s)

  Recommended or required reading

  Randall Knight, Physics for Scientists and Engineers, 2nd Edition, Pearson Education.
  The weekly schedule and laboratory instructions available tabula.tamk.fi
  Technical Formulas, Tammertekniikka, 2002

  Planned learning activities and teaching methods

  Contact teaching
  Laboratory work
  Report
  Cooperative learning

  Assessment methods and criteria

  Evaluation is based on the average of the grades of the laboratory works. Each report is evaluated based on the working in the laboratory, results and the report.
  Participation to all classes ( inroductions, measurements and feedbacks) is compulsory.
  Detailed evaluation, see in tabula: "Evaluation of Environmental Physics Labs Version 2.0e"

  Language of instruction

  English

  Timing

  28.08.2017 - 22.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 16IDEE

  Seats

  15 - 32

  Teacher(s)

  Jarmo Lilja, Erkki Mäkinen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Exam schedule

  No exams

  Students use of time and load

  - Introductions,feedbacks, guidance 24h
  - Laboratory measurements 21 h
  - Poster presentation 3h
  - Independent work ab. 35h
  Total ab. 80h
  -

  Content periodicity

  Introduction, selfevaluation of a previous report 3h.
  Calculation methods introduction,data processing 6h.
  Laboratory exercises chosen from the fields of general and environmental physics 21 h.
  Feedback, guidance 15h.
  Poster presentations 3h.
  Working: Measurements are done by working in pairs.
  Lab 1 Grading: Need to get acceptable level
  -common responsibility report of each pair required
  Lab 2 Grading 0...5
  Common responsibility report of each pair
  Labs 3 -6 Grading: 0...5
  - 2 individual reports/person (meaning every second work for each student)
  Lab 7 Own designed lab Grading 0...5
  - Common poster, calculation sheet and presentation
  Delivery times:
  - 2 working weeks from the date of the measurements
  - a delay will affect negatively on the grading
  - the dead line is 4 working weeks from the date of measurements

  Assessment criteria

  Not approved

  Missing works or reports.

  Satisfactory

  Participation 100 % compulsory
  Reports have been done,methods and results have been presented, structure and analyses may have some shortages and can be partly erroneous.Discussion contains very few, simple conclusions.
  Detailed evaluation, see in tabula: "Evaluation of Environmental Physics Labs Version 2.0e"

  Good

  Participation 100 % compulsory.
  Measurements and reports done in a normal way. Results and analyses are correct.
  Reports have been done correctly according to the reporting standards of TAMK. Discussion contains some comments relevant comments relating to the results and applications.
  Detailed evaluation, see in tabula: "Evaluation of Environmental Physics Labs Version 2.0e"

  Excellent

  Participation 100 % compulsory.
  Measurements and reports done with comprehensive, active, collaborative working. Results and analyses are correct. Structured, fluent, especially transparent text, vision of limitations and improvements, broad mature discussion and own conclusions related to the topics.
  Detailed evaluation, see in tabula: "Evaluation of Environmental Physics Labs Version 2.0e"

• Power Plant Technology 5E00BH58-3002 28.08.2017-22.10.2017  4 cr  (14IENVE) +-
  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)

  Recommended or required reading

  Course material is informed in Tabula. 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/group seminars
  End of the course –exam

  Assessment methods and criteria

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

  Language of instruction

  English

  Timing

  28.08.2017 - 22.10.2017

  Registration

  15.05.2017 - 01.09.2017

  Credits

  • 4 cr

  Group(s)

  • 14IENVE

  Seats

  30 - 35

  Teacher(s)

  Mika Nieminen, Sakari Lepola

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Completion alternatives

  Participating the lessons is useful in any case and it is absolutely necessary, when making and presenting the pair 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

  This 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

  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.

• Professional Communication 5N00BN98-3003 28.08.2017-12.12.2017  3 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course students will deploy on a larger scale all the writing skills which they have been developing throughout the ENVE programme.
  In addition, the students will find out about abstracts and maturity tests (comprehensive competence exams) as separate text types. They can give professional presentations about their own work and host events with their colleagues and co-workers in a good manner.

  Course contents

  Professional reporting and presentations

  ---

  Name of lecturer(s)

  Recommended or required reading

  Material provided in Tabula

  Planned learning activities and teaching methods

  Written tasks in Tabula and spoken tasks in class.
  Discussions and workshops led by the students and the teacher.

  Assessment methods and criteria

  The grade is given based on the following tasks:
  
  - weekly tasks in Tabula (should take about an hour of your time)
  - 2 electronic exams (one pass-fail, one graded)
  - summary of an article (written) and sharing (spoken interaction)
  - reading three abstracts (making notes) and sharing (spoken interaction)
  - group task: leading one session + reflection (= the latter electronic exam)

  Language of instruction

  English

  Timing

  28.08.2017 - 12.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 15IDEE

  Seats

  25 - 35

  Teacher(s)

  Taru Owston

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Training and labour cooperation

  The course supports the students in their worklife projects.

  Exam schedule

  Electronic Examination taken in the time convinient for the student.

  International connections

  International group

  Students use of time and load

  Three-hour sessions on Tuesday mornings.
  Weekly tasks in Tabula.
  Preparation on bigger tasks and a workshp.

  Content periodicity

  )

  Assessment criteria

  Not approved

  Tasks are not completed or are plagiarised.

  Satisfactory

  Tasks are completed. Can understand sentences and frequently used expressions related to areas of
  most immediate relevance (e.g. very basic personal and family information,
  shopping, local geography, employment). Can communicate in simple and
  routine tasks requiring a simple and direct exchange of information on
  familiar and routine matters. Can describe in simple terms aspects of his/her
  background, immediate environment and matters related to studies

  Good

  Completes tasks as requested.
  Can understand the main ideas of complex text on both concrete and abstract topics, including technical discussions in his/her field of
  specialisation. Can interact with a degree of fluency and spontaneity that
  makes regular interaction with native speakers quite possible without strain
  for either party. Can produce clear, detailed text on a wide range of subjects
  and explain a viewpoint on a topical issue giving the advantages and disadvantages of various options.

  Excellent

  Completes tasks as requested.
  Can express him/herself
  spontaneously, very fluently and precisely, differentiating finer shades of
  meaning even in more complex situations.
  Can understand a wide range of demanding, longer texts, and recognise
  implicit meaning. Can express him/herself fluently and spontaneously
  without much obvious searching for expressions. Can use language flexibly
  and effectively for professional purposes. Can produce
  clear, well-structured, detailed text on complex subjects, showing controlled
  use of organisational patterns, connectors and cohesive devices.

• Professional Software Tools 5E00BG16-3004 30.08.2017-13.12.2017  5 cr  (16IDEE) +-
  Learning outcomes of the course unit

  After completing this course students
  - have basic skills in the use of computer applications and resources in environmental planning and design, such as AutoCad

  Course contents

  CAD

  ---

  Name of lecturer(s)

  Recommended or required reading

  All material needed will be online / Tabula

  Planned learning activities and teaching methods

  Demonstrations, guided practicing, virtual studies, projects

  Assessment methods and criteria

  Parts to be evaluated: two projects, quizes/exam, participation. Course grade will be based on these.

  Language of instruction

  English

  Timing

  30.08.2017 - 13.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 16IDEE

  Teacher(s)

  Jaakko Aumala

  Further information for students

  For morel detailed information see tabula.tamk.fi

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  R&D proportion

  1 cr

  Virtual proportion

  2 cr

  Evaluation scale

  0-5

  Completion alternatives

  Negotiable

  Exam schedule

  Small quiz-activities during lessons or alternatively an exam, during the last lesson. Resits will be arranged as requested.

  Students use of time and load

  Lessons 3h / week, online learning 2h / week and projects with SketchUp (~10h) and AutoCAD (~15h)

  Content periodicity

  SketchUp Make, AutoCAD basics and 2d, AutoCAD 3D solid modelling

  Assessment criteria

  Not approved

  Student did not accomplish all mandatory parts.

  Satisfactory

  Student has been able to do acceptable assignments and have participated lessons and done at least 2/3 of online quiz activities in the Tabula. Student knows the principles of SkethUp and AutoCAD software. Student is able to accomplish simple tasks following instructions but may need some guidance.

  Good

  Student has earned average grades from assignments and quiz activities. Very detailed information about the grading of each assignment/quiz is found at Tabula. Student is able to do simple tasks with CAD-software individually and needs help only in solving advanced problems.

  Excellent

  Student has earned excellent grades from activities. Detailed information about the grading of each assignment / quiz is found at Tabula. Student is able to accomplish demanding CAD-tasks including quite demanding problem solving. Student can provide help to other students as well.

• Project Management Tools 5E00BH06-3003 13.09.2017-23.11.2017  3 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course student
  - knows the principles of project management and project implementation
  - know how to use technical tools in project management
  - can plan, organize, implement and evaluate a project in different roles as a part of a project group

  Course contents

  Project management tools and skills.

  ---

  Name of lecturer(s)

  Recommended or required reading

  Horine, Gregory: Absolute Beginner's Guide To Project Management
  Materials prepared and distributed by the teachers.

  Planned learning activities and teaching methods

  Lectures, cases, groupwork, online tasks.

  Assessment methods and criteria

  Project management exercises and/or exam must be completed succesfully. In addition, there will be an obligatory group assignment related to managing an environmental project, which includes a group report (project plan) and a short seminar presentation in the end of the course. The seminar presentation and the plan will be assessed by student peer groups. Each student needs to write a short reflection on the experiences from the group assignment (pass/fail).

  Language of instruction

  English

  Timing

  13.09.2017 - 23.11.2017

  Registration

  15.05.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 15IDEE

  Seats

  30 - 35

  Teacher(s)

  Kai Hintsanen, Mika Nieminen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  R&D proportion

  1 cr

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Completion alternatives

  None

  Training and labour cooperation

  Students' own projects play an important role in this course.

  Exam schedule

  To be announced during the lectures.

  International connections

  -

  Students use of time and load

  9 x 3 hrs lectures
  Independent and group work / project work 40 hrs.

  Assessment criteria

  Not approved

  Student fails to complete the given tasks in a given time frame. Has not been able to recognize the role and significance of project management and has shown inadequete ability to utilize tools and techniques of project management.

  Satisfactory

  Student has completed all parts of the course and achieved competence is sufficient, but narrow. All assignments have been returned by the given deadlines. This grade represents some but modest understanding by the student in terms of using project management tools and techniques in a concrete project work.

  Good

  Student has completed all parts of the course and achieved competence is structured and applied. All assignments have been returned by the given deadlines. This grade represents good understanding by the student in terms of using project management tools and techniques in a concrete project work.

  Excellent

  Student has completed all parts of the course and achieved competence is wide, creative and developing. All assignments have been returned by the given deadlines. This grade represents close to professional level understanding by the student in terms of using project management tools and techniques in a concrete project work.

• Projektityö/Project Work 5N00CQ10-3009 01.09.2017-31.12.2017  5 cr  (15I575B, ...) +-
  Learning outcomes of the course unit

  The student
  - Learns to work in a multidiciplinary design and/or development projects.
  - Has the basic skills in development project planning, steering and management.
  - Can report progress of the project in different phases.
  - Can receive and give development proposals and feedback.
  - Is able to evaluate the project outcomes.

  Course contents

  -Planning, steering and management of a multidisciplinary project
  - Tools for project work and control.
  - Roles of a project team member and project manager
  - Reporting of a project in different phases

  Further information

  These joint project groups include students from different programmes.

  ---

  Name of lecturer(s)

  Recommended or required reading

  Materials are published digitally. Suggested reading for project management Horine, G.2005 Absolute Beginner's Guide to Project Management

  Planned learning activities and teaching methods

  Introductory lectures on project work, work in the project group, meetings with coaching teacher, project show room

  Assessment methods and criteria

  Evaluation focuses on the actual working in the project, and on its documentation. Evaluation is based on continuous observation during project work, individual and group reflection on the work, evaluation discussion in the end of the project and the client's feedback. Also the project plan and project report are used in evaluation.

  Language of instruction

  English

  Timing

  01.09.2017 - 31.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 15I575B
  • 15I575A
  • 15I131
  • 15I227
  • 15I160
  • 15I226
  • 15IM
  • 15I224
  • 15I228T
  • 15LATE
  • 15I111
  • 15I228K
  • 15I228A
  • 15IDEE
  • 15I190
  • 17LATEMM

  Seats

  0 - 300

  Teacher(s)

  Mika Nieminen, Miia Seilonen, Juuso Huhtiniemi, Anne Ojala, Mika Ijas, Lasse Hillman, Aino-Riitta Joutsen, Harri Laaksonen, Manne Viljamaa, Anne Leppänen, Hilda Szabo, Matti Kivimäki, Esa Väliaho, Piia Kanto, Urpo Rossi, Jukka Tohu, Mervi Tapola-Salminen, Erkki Kiviniemi, Eveliina Asikainen, Jari Mikkolainen, Perttu Arminen, Esko Kurki, Heikki Yli-Rämi, Jarmo Lilja, Maarit Korhonen, Outi Heiniö

  Further information for students

  The course is based on realizing multiprofessional projects in working life and coaching project groups. There is time provided for project group meetings in the students' calendars.

  Unit, in charge

  Degree Programme in Laboratory Engineering

  Degree programme(s)

  Degree Programme in Mechanical Engineering, Degree Programme in Forestry, Degree Programme in Laboratory Engineering, Degree Programme in Energy and Environmental Engineering, Degree Programme in ICT Engineering, Degree Programme in Bioproduct and Process Engineering

  Office

  Tamk, Main Campus (TAMK)

  R&D proportion

  5 cr

  Evaluation scale

  0-5

  Training and labour cooperation

  The course is implemented through true working life projects.

  Exam schedule

  No exams

  International connections

  Exchange students can attend the course. Some projects use English as working language or have international dimensions.

  Students use of time and load

  Introductory lectures and organizing project groups 6 h, presenting results in project show room 3 h, working in the project and reporting 126 h.

  Content periodicity

  Mandatory participation at introductory lectures and kick off 1th and 8th of September 8.15-11, and project show room XXth December 8-11. Time has been resereved for project groups' work on friday mornings. Groups arrange time for their work.

  Assessment criteria

  Not approved

  Project can be evaluated as failed because of following reasons
  - the coach has been responsible for all communication with the client
  - project group has not had any documented meetings
  - project group has not written a project plan and/or project report
  - project group has not evaluated the process and outcome of the project

  Satisfactory

  The group does not have clear rules, the work proceeds mostly due to the coach's or clients activity. Project leader does not take responsibility on leading. Time and work management, and control is inadequate.
  Members of project group focus on their own sub-tasks, co-operation between group members and with the client, and utilization of the group members' special skills is inadequate. Work load is unevenly divided between the group members. Project outcome is incomplete, or group's and client's judgement of the outcome differs significantly.

  Good

  Group agrees on the rules with the assistance of coach, and mainly follows the agreed rules during the project. Project leader takes responsibility on the progress of the project, and takes care that each member can participate in the project work.
  Group members work according to the agreed rules and project leader's guidelines. They listen to each other's opinions and co-operate with the client. Project members' commitment to the project varies in different phases.
  Project outcome is in accordance with the task description. Group and client have quite similar opinions on the quality of the project work and its outcomes.

  Excellent

  Group self-directively and collectively agrees on the rules and takes care that all group members follow them during the project.
  The project leader takes appropriate responsibility, takes the group members' skills into account and leads the project with smoothly. Project leader finds creative solutions to enhanche good working atmosphere. Time and work load allocation is systematical and balanced.
  Each group member works for accomplishing the project aims in co-operation with group members. All group members participate actively in all phases of the project. Group members listen to and respect others' opinions and competences. Group members co-operate with the client and adjust plans according to feed-back.
  Project proceeds according to the timetable or the timetable (and or the aims) is adjusted in co-operation with the client. The project group is able to evaluate realistically the quality of outcome with regard to the project aims and is able to reflect the project work process.

  Approved / Failed

  The group does not have clear rules, the work proceeds mostly due to the coach's or clients activity. Project leader does not take responsibility on leading. Time and work management, and control is inadequate.
  Members of project group focus on their own sub-tasks, co-operation between group members and with the client, and utilization of the group members' special skills is inadequate. Work load is unevenly divided between the group members. Project outcome is incomplete, or group's and client's judgement of the outcome differs significantly.

• Renewable Energy 5E00BH56-3004 01.08.2017-31.12.2017  5 cr  (14IENVE, ...) +-
  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 types are introduced to that extent that student is able to evaluate and assess their feasibility in dfferent situations.

  Prerequisites and co-requisites

  As a pre-requisite, at least the basic studies in mathematics, physics and chemistry should be done before taking this course. Preferably also 5E00BF93 Basic in Environmental Technology and Management or similar course.

  Course contents

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

  ---

  Name of lecturer(s)

  Recommended or required reading

  All course materials are informed in the course's Tabula page. The study materials include books, articles, and internet sources. The course will be lectured by different teachers who will also distribute their own materials during the lectures.
  Below you find a list of recommended readings:
  IEA. 2016. World Energy Outlook 2016. Executive summary.
  OECD/IEA & FAO. 2017. How2Guide for Bioenergy. Roadmap Development and Implementation. IEA Publications.

  Planned learning activities and teaching methods

  The energy course is a lecture series given by different teachers.
  Teaching methods include:
  - Lectures
  - Assignments
  - Discussions
  - Pair/group seminars

  Assessment methods and criteria

  Returned assignments
  Activity during the lectures and group works
  Learning diary

  Language of instruction

  English

  Timing

  01.08.2017 - 31.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 14IENVE
  • 14I575A
  • 14I575B

  Seats

  20 - 35

  Teacher(s)

  D.P. in Energy and Environmental Engineering Virtuaalihenkilö, Eero Kulmala, Mika Nieminen, Aki Korpela, Sakari Lepola

  Unit, in charge

  Degree Programme in Bioproduct and Process Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering, Degree Programme in Bioproduct and Process Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Completion alternatives

  Participating the lectures is strongly recommended. In the case of seminars and discussions, participation is mandatory. Active participation in group works is mandatory in order to pass the 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

  This 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 40+hours. Additional seminar work with own group 15-20 hours and one excursion, which takes app. one working day.

  Assessment criteria

  Satisfactory

  Motivation to participate in the lectures and assignments is normal. All assignments are returned and done as instructed. Achieved competence is sufficient, but narrow. Knowledge and understanding of the core concepts introduced during the course. Basic theoretical knowledge and understanding in using renewable energy and basic processes.

  Good

  Motivation to participate in the lectures and assignments is good, some absences are possible. Achieved competence is structured and applied. Fluent knowledge and understanding of the core concepts and phenomena introduced during the course. Sufficient skills and theoretical knowledge of the basic processes and types of renewable energy. Motivation and interest towards the subject expressed clearly. All assignments have been done carefully and as instructed, and they have been returned by the end of the course.

  Excellent

  Motivation to participate in the lectures and assignments is good. Active participation in the assignments. Achieved competence is wide, creative and developing. Fluent knowledge and understanding of the core concepts and phenomena introduced during the course. In addition, ability to apply the knowledge in new situations. Sufficient skills and understanding the introduced topics. Fluent theoretical knowledge and understanding of the core concepts and phenomena introduced during the course. All assignments have been done carefully and as instructed, and they have been returned by their deadlines.

• Risk Assessment and Management 5E00BG77-3003 23.10.2017-31.12.2017  3 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - Knows the principles of risk assessment and management from the point of view of corporate sustainability
  - Can identify hazards to people and the environment
  - Can control risks particularly to individuals, organizations and the environment
  - Knows the principles of risk communication

  Prerequisites and co-requisites

  Completed course on Basics for Environmental Technology and Management or equivalent.

  Course contents

  Occupational safety and health risks, environmental risks, risk assessment, risk management.

  Further information

  Literature: Will be announced in the beginning of the class
  Language of instruction: English

  ---

  Name of lecturer(s)

  Recommended or required reading

  Will be announced during the course.

  Planned learning activities and teaching methods

  Contact teaching during the lectures, self-study/distance learning, assignments, presentations and practical work.

  Language of instruction

  English

  Timing

  23.10.2017 - 31.12.2017

  Registration

  18.09.2017 - 17.10.2017

  Credits

  • 3 cr

  Group(s)

  • 15IDEE

  Seats

  30 - 35

  Teacher(s)

  Mika Nieminen, Marileena Mäkelä

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

• Scientific Methods 5E00BH17-3003 18.09.2017-31.12.2017  3 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course student
  - knows the principles of scientific research: qualitative and quantitative research and can identify a research study accordingly
  - knows the different thesis forms at universities of applied sciences
  - knows the main statistical analysis methods in experimental research and can use them in practise
  - knows the procedure of the thesis process at TAMK and requirements of a thesis
  - can plan an experimental research study

  Prerequisites and co-requisites

  5E00BF83 Writing Scientific Reports in English, 5N00BG05 Statistics

  Course contents

  Bachelor's thesis process at TAMK, research and data acquisition methods, data analysis, planning the thesis, work life connections

  ---

  Name of lecturer(s)

  Recommended or required reading

  All course materials are in Tabula.
  Glenn, Jerome Clayton (2010) Handbook of research methods. Available as an e-book in TAMK e-library.

  Planned learning activities and teaching methods

  The course simulates thesis process in small scale. All phases: topic searching, planning the research setting, studying background literature, doing research, reporting the study, presenting the results and giving and receiving feedback are covered. Lectures, individual and group tasks make up the whole

  Assessment methods and criteria

  Evaluation is based on continuous performance. The following tasks affect evaluation: research plan including literature search review (20 %), research diary (15 %), report (mini-thesis) (30 %), presentation (20 %), evaluating a bachelor thesis (15 %).

  Language of instruction

  English

  Timing

  18.09.2017 - 31.12.2017

  Registration

  13.06.2017 - 17.10.2017

  Credits

  • 3 cr

  Group(s)

  • 15IDEE

  Seats

  25 - 35

  Teacher(s)

  Mika Nieminen, Eveliina Asikainen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Students use of time and load

  About 30 hrs contact teaching 6 hrs seminar work. Individual work about 45 hrs

  Assessment criteria

  Not approved

  Student has not returned all tasks.

  Satisfactory

  Student clearly demands help in many phases of the research process. The submissions show narrow or incomplete understanding of the connection between research questions, background literature, choice of methodology, study design, reporting and concluding.

  Good

  Student is able to write clear research documents. (S)He can justify the decisions on methods, context or study approach. The student is able to find useful resources and design a study which can be put into practice. The student is able to present results and draw reasonable conclusions based on the results.

  Excellent

  Student is able to write well-argued and easily understandable research documents. (S)he is able to justify the decisions and critically reflect upon choices. The student shows critical thinking and reflection of sources of information and creativity combined with critical self-reflection in the study design, interpretation of results and drawing conclusions

• Soil Science and Engineering 5E00BF43-3005 21.08.2017-15.12.2017  4 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing this course student:
  - knows soil properties, soil formation processes, structure, function and biology of soils and their significance as a raw material reserve
  - can take and manage soil samples for further analysis
  - knows the basic pre-treatment and physico-chemical analysis methods of soils and can use them in practise
  - knows the phenomenon of water flow in soils, groundwater formation and the practical applications related
  - knows the basics of geotechnology, soil management and soil pollution

  Course contents

  Basic geology and soil science, biological and pysical processes in soils, environmental impacts of soil utilization, hydrology, movement of water, air and gases in soils, soils as construction material, basics of geoengineering

  ---

  Name of lecturer(s)

  Recommended or required reading

  Coleman, David C. ; Crossley, D. A. ; Hendrix, Paul F. 2004. Fundamentals of soil ecology Elsevier Academic Press cop. Can be found from Ebrary -e-book database.
  Murphy, B. W., Hazelton, P. A 2007. Interpreting Soil Test Results: What Do All the Numbers Mean? Collingwood, VIC : CSIRO Publishing. 2007, Can be found from EbscoHost -e-book database.
  Reddy, R.N. 2010. Soil Engineering. Design, testing and remediation. Global Media.
  Can be found from Ebrary -e-book database.
  Terzaghi, Karl; Peck, Ralph B.; Mesri, Gholamreza. 1996. Soil Mechanics in Engineering Practice (3rd Ed)1996 John Wiley & Sons.
  Can be found from Knovel E-book database
  Handouts and e-material given during the course.

  Planned learning activities and teaching methods

  Contact lessons, field and laboratory experiments, demonstrations, exercises, calculations

  Assessment methods and criteria

  The evaluation of the course is based on continuous evaluation: Learning outcomes that are based on the knowledge and skills achieved with the course assignments, exercises, reports based on them and exam. Grading (1-5) is based on emphasized average from the grades of different assignments. The emphasis is as follows:
  • Soil Organisms 30 % (grade given according to separate criteria)
  • Soil Properties 30 % (grade given according to separate criteria)
  • Geotechnology 20 % (grade given according to separate criteria: 2 short tests after the lessons)
  • Exam (50 % passing limit) – 20 %

  Language of instruction

  English

  Timing

  21.08.2017 - 15.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 4 cr

  Group(s)

  • 17IDEE

  Seats

  30 - 35

  Teacher(s)

  Eija Syrjämäki, Mika Nieminen, Eeva-Liisa Viskari, Anne Kasari

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Exam schedule

  Final exam in December 2017. Retake exams will be agreed separately and held in the beginning of 2018.

  Students use of time and load

  Contact lessons and laboratory exercises 50 h
  Self-study (reports, exercises, exam) 58 hours
  total 108 hours

  Content periodicity

  Schedule will be available in Tabula.

  Assessment criteria

  Satisfactory

  Achieved competence is sufficient, but narrow. Knowledge and understanding of the core concepts and phenomena of the soil formation, processes and interactions in soils. Basic skills in soil sampling, soil biota and soil quality analyses and ability to do the analyses in practise when instructed and supervised. Basic theoretical knowledge and understanding in geotechnical engineering, soil pollution and soil management.

  Good

  Achieved competence is structured and applied. Fluent knowledge and understanding of the core concepts and phenomena of the soil formation, processes and interactions in soils. Sufficient skills and ability in independent soil sampling, soil biota and soil quality analyses. Fluent theoretical knowledge and understanding in geotechnical engineering, soil pollution and soil management. Motivation and interest towards the subject expressed clearly.

  Excellent

  Achieved competence is wide, creative and developing. Fluent knowledge and understanding of the core concepts and phenomena of the soil formation, processes and interactions in soils. In addition ability to apply the knowledge in new situations. Sufficient skills and understanding in independent soil biota and soil quality analyses and making suggestions for developing and/or improving these methods. Fluent theoretical knowledge and understanding in geotechnical engineering, soil pollution and soil management and motivation and positive attitude to develop oneself in these fields.

• Statistics 5N00BG05-3004 28.08.2017-22.10.2017  3 cr  (16IDEE) +-
  Learning outcomes of the course unit

  After completing this course students
  - are able to use the basic statistical methods (calculate statistical values, use graphs in describing scientific phenomena, test hypothesis) in data analysis.

  Prerequisites and co-requisites

  Basic use of Excel, Functions and matrices and Integral Calculus, or similar skills

  Course contents

  Statistical charts and numbers, probability, regression and correlation, hypothesis testing.

  ---

  Name of lecturer(s)

  Language of instruction

  English

  Timing

  28.08.2017 - 22.10.2017

  Registration

  11.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 16IDEE

  Seats

  30 - 35

  Teacher(s)

  Jukka Suominen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

• Swedish Language, Spoken 5N00CL88-3045 28.08.2017-08.12.2017  2 cr  (16IDEE) +-
  Learning outcomes of the course unit

  Opiskelija osaa kertoa suullisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa.
  Opiskelija osaa esitellä suullisesti yritysten ja organisaatioiden toimintaa, tuotteita, prosesseja ja palveluita sekä keskustella näistä aiheista.
  Opiskelija selviytyy oman tekniikan alansa työelämäkontakteista, esim. puhelintilanteista ja presentaatioista.
  Opiskelija osaa antaa suullisesti oman alansa teknisiä ohjeita. (not translated)

  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

  • Työelämän suullisia viestintätilanteita
  • Yrityselämän ruotsia
  • Oman opiskelualan termistöä
  • Keskeistä kielioppia (not translated)

  Further information

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

  ---

  Name of lecturer(s)

  Recommended or required reading

  Joni Sallila: Protocall – Teknikbiten, Tammertekniikka 2016.
  Ammattialakohtaiset tekstit ilmoitetaan kurssin aikana.
  Kurssisivu: http://ruotsi2017.webs.com/16idee (not translated)

  Planned learning activities and teaching methods

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

  Assessment methods and criteria

  Asteikko 0-5. Kokeet ja tuntiaktiivisuus. Lähiopetuksen läsnäolovaatimus: 80 %. (not translated)

  Language of instruction

  Tuition in Finnish

  Timing

  28.08.2017 - 08.12.2017

  Registration

  01.04.2017 - 31.10.2017

  Credits

  • 2 cr

  Group(s)

  • 16IDEE

  Teacher(s)

  Joni Sallila

  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.
  Toteutustapa: päiväopetus.
  Tieto virtuaalisuudesta opiskelijalle: Osittainen verkkototeutus. (not translated)

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Completion alternatives

  AHOT (lehtori Katri Kallinen) (not translated)

  Exam schedule

  Kielioppitesti 12.9.2017
  Kirjallinen koe: 14.11..2017
  Suullinen koe: 21.11.2017 (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

  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)

• Swedish Language, Written 5N00CL84-3046 28.08.2017-08.12.2017  2 cr  (16IDEE) +-
  Learning outcomes of the course unit

  Opiskelija osaa kertoa kirjallisesti koulutuksestaan, työkokemuksestaan ja -tehtävistään esim. työnhakutilanteessa.
  Opiskelija osaa esitellä kirjallisesti yritysten ja organisaatioiden toimintaa, tuotteita, prosesseja ja palveluita.
  Opiskelija selviytyy oman tekniikan alansa kirjallista taitoa vaativista työelämäkontakteista, esim. sähköpostiviesteistä, reklamaatioista ja raportoinnista.
  Opiskelija pystyy hakemaan ja jäsentämään oman tekniikan alansa tietoa eri lähteistä ja seuraamaan oman alansa kehitystä ammatillisista lähteistä. Opiskelija ymmärtää ja osaa laatia teknisiä ohjeistuksia omalla alallaan. (not translated)

  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

  • Työelämän kirjallisia viestintätilanteita
  • Yrityselämän ruotsia
  • Oman opiskelualan termistöä
  • Keskeistä kielioppia (not translated)

  Further information

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

  ---

  Name of lecturer(s)

  Recommended or required reading

  Joni Sallila: Protocall – Teknikbiten, Tammertekniikka 2016, 5. uudistettu painos tammikuu 2016
  Ammattialakohtaiset tekstit ilmoitetaan kurssin aikana.
  Kurssisivu: http://ruotsi2017.webs.com/16idee (not translated)

  Planned learning activities and teaching methods

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

  Assessment methods and criteria

  Asteikko 0-5. Kokeet ja tuntiaktiivisuus. Lähiopetuksen läsnäolovaatimus: 80 %. (not translated)

  Language of instruction

  English

  Timing

  28.08.2017 - 08.12.2017

  Registration

  01.04.2017 - 31.10.2017

  Credits

  • 2 cr

  Group(s)

  • 16IDEE

  Seats

  15 - 20

  Teacher(s)

  Joni Sallila

  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.
  Toteutustapa: päiväopetus.
  Tieto virtuaalisuudesta opiskelijalle: Osittainen verkkototeutus. (not translated)

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Completion alternatives

  AHOT (lehtori Katri Kallinen) (not translated)

  Exam schedule

  Kielioppitesti 12.9.2017
  Kirjallinen koe: 14.11..2017
  Suullinen koe: 21.11.2017 (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

  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)

• Water and Sanitation 5E00BG75-3003 28.08.2017-15.12.2017  5 cr  (15IDEE) +-
  Learning outcomes of the course unit

  After completing this course student
  - knows the problems related to water quality and quantity
  - is familiar with the physical, chemical and biological water quality indicators and can solve related problems
  - knows the role of standards and the principles of setting the water standards
  - knows the concepts of centralized and decentralized water and wastewater management
  - knows the principles and advantages of ecological sanitation
  - knows the technologies used in ecological sanitation
  - knows the most important water and wastewater analysis methods in monitoring the processes
  - can analyse water and wastewater samples and interpret the results

  Prerequisites and co-requisites

  Basic Chemistry, Inorganic and Analytical Chemistry, Enviornmental Chemistry

  Course contents

  water resources, physical, chemical and biological characteristics of water and wastewater, water quality, public health and sanitation, standars and setting standards, centralized and decentralized water and wastewater management, ecological sanitation

  ---

  Name of lecturer(s)

  Recommended or required reading

  Handouts posted in Tabula
  Textbook: George Tchobanoglous & Edward D. Schroeder: Water Quality

  Planned learning activities and teaching methods

  Teach-in, field excursion, assignments, exam

  Assessment methods and criteria

  The course consists of lectures and discussions, exercises, field excursion of which students write report, compulsory laboratory exercises (3) and exam. Together these form the course grade as follows:
  short assignments max. 40 points; laboratory reports max. 30 points; exam max. 30 points
  Grade 0: 0-29 points; grade 1: 30-44 points; grade 2: 45-59 points; grade 3:60-74 points; grade 4: 75-89 points; grade 5: 90-100 points.

  Language of instruction

  English

  Timing

  28.08.2017 - 15.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 5 cr

  Group(s)

  • 15IDEE

  Seats

  30 - 35

  Teacher(s)

  Hilda Szabo, Renja Yrjönen

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Evaluation scale

  0-5

  Exam schedule

  Exam at the end of the course.

  Content periodicity

  Concept of water and wastewater management, sources of water, use of water, characteristics of water and their significance from environmental health point of view, unit operations used in water and wastewater treatment, drinking water production, wastewater treatment, alternative wastewater management options and future perspectives.

  Assessment criteria

  Not approved

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is insufficient.
  This means that
  -some of the assignments were done acceptably
  -the student is not familiar with the basic concepts discussed during the course
  -can perform the laboratory measurements and experiments under supervision
  -has no basic skills in reporting the results of the measurements and experiments
  -seldom and inactive participation in the lectures

  Satisfactory

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is sufficient but narrow.
  This means that
  -some of the assignments were done acceptably
  -the student is familiar with the basic concepts discussed during the course but often makes mistakes when applying them
  -can perform the laboratory measurements and experiments under supervision
  -has basic skills in reporting the results of the measurements and experiments
  -seldom and inactive participation in the lectures

  Good

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is structural.
  This means that:
  -most of the assignments were done and accepted
  -exam shows that the student is familiar with the concepts discussed during the course and can apply them in most of the situations
  -is fluent in the basic concepts and phenomena related to the subjects discussed during the course
  -can solve model exercise and new exercises correctly
  -can perform laboratory measurements and experiments independently
  -the reporting of the laboratory results shows that the student attends to apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed

  Excellent

  Student participated in the laboratory exercises and the exam. Overall the achieved competence is wide.
  This means that:
  -the assignments were done excellently
  -student is fluent in the basic concepts and phenomena related to the subjects discussed during the course
  -can solve model exercise and new exercises correctly, shows creativity in solving tasks
  - can perform simple laboratory measurements and experiments independently
  -the reporting of the laboratory results shows that the student can apply the theoretical knowledge in explaining the results
  -student is clearly motivated and interested in the subjects discussed, eventually brings up new subject of interest

• Writing Scientific Reports in English 5E00BF83-3005 01.08.2017-31.12.2017  3 cr  (17IDEE) +-
  Learning outcomes of the course unit

  After completing the course students have achieved the following skills:
  - Realistic evaluation of one’s own language (English) learning skills
  - Accessing information from a wide range of sources
  - Critical evaluation of information
  - Competence in scientific reporting

  Course contents

  The students will practice producing reports which are logically structured, cover sufficient and relevant content, include appropriately labelled graphics, follow the norms for referencing and lay-out, and are written in clear and accurate English.
  The students will develop their skills in summarising, paraphrasing and synthesise source materials.

  ---

  Name of lecturer(s)

  Recommended or required reading

  TAMK reporting guide
  Materials will be supplied in class and posted in Tabula.

  Planned learning activities and teaching methods

  Workshops
  Writing exercises
  Practice of specific writing skills
  Written assignments

  Assessment methods and criteria

  There will be no exam. The grade is given based on completion of tasks and the level of writing and reporting skills. Attendance 80%.

  Language of instruction

  English

  Timing

  01.08.2017 - 31.12.2017

  Registration

  12.06.2017 - 03.09.2017

  Credits

  • 3 cr

  Group(s)

  • 17IDEE

  Seats

  0 - 35

  Teacher(s)

  Taru Owston, Emmanuel Abruquah

  Further information for students

  This course is integrated with the following 1st-year courses
  - Physics (mechanics report)
  - Soil Science (insect report)
  In order to be successful in all three courses it is very important to keep to the planned schedule.
  Those students not attending Mechanics and Soil Science show their skill otherwise.

  Unit, in charge

  D. P. in Energy and Environmental Engineering

  Degree programme(s)

  Degree Programme in Energy and Environmental Engineering

  Office

  Tamk, Main Campus (TAMK)

  Virtual proportion

  1 cr

  Evaluation scale

  0-5

  Completion alternatives

  Showing competence in the agreed manner (send a message to taru.owston@tamk.fi and attach reports you have written previously.)

  Training and labour cooperation

  Mini research tasks

  Exam schedule

  No exam, complete tasks:
  1. Practice report (concerning 17IDEE or some other group)
  2. Mechanics report (pass-fail)
  3. Soil science report (insects) - the version submitted to the Soil Science teacher will be graded
  4. Essay on learning - graded
  -

  International connections

  International group.

  Students use of time and load

  Students attend one two hour session each week and have tasks and report to complete every week.
  It is important to reserve time for individual work.

  Assessment criteria

  Not approved

  One or more of the reports submitted fail to meet the specific criteria.

  Satisfactory

  The student writes in comprehensible English on the whole and shows some awareness of the norms for scientific writing; references to source materials are included. 80% attendance.

  Good

  Student's English is mainly formal and clear; reports meet norms for scientific writing, references to source materials are incorporated consistently, source materials are adequately paraphrased. 80% attendance.

  Excellent

  Student's English is mainly formal and accurate; reports meet norms for scientific writing, references to source materials are incorporated consistently and in a variety of ways, source materials are adequately paraphrased.80% attendance.

Implementations in academic year 2018 - 2019

There is no realizations attached to this degree programme.