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Engineering of piping systemsLaajuus (5 cr)

Code: TERP0160

Credits

5 op

Teaching language

  • Finnish

Responsible person

  • Kari Hytönen
  • Antti Henell

Objective

The student knows basics of pipeline design and can design piping network with PI- and LAYOUT-drawing

Content

Basics of industrial process piping design. The examples come from power plant, industrial and heat distribution pipelines.
Supporting pipelines and connecting them to other structures.
The course emphasizes the importance of sustainable development in factory design and utilizes digital solutions.

Qualifications

Technical drawing and CAD, process design, pressure equipment design and basic knowledge of mathematics, physics and chemistry

Assessment criteria, approved/failed

The student completes the assigned tasks and returns them according to the agreed schedule.

Enrollment

01.11.2024 - 09.01.2025

Timing

13.01.2025 - 30.04.2025

Number of ECTS credits allocated

5 op

Virtual portion

2 op

Mode of delivery

60 % Face-to-face, 40 % Online learning

Unit

School of Technology

Campus

Main Campus

Teaching languages
  • Finnish
Seats

0 - 30

Degree programmes
  • Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
  • Antti Henell
  • Toni Hiltunen
Groups
  • TER22S1
    Energia- ja ympäristötekniikka (AMK)

Objectives

The student knows basics of pipeline design and can design piping network with PI- and LAYOUT-drawing

Content

Basics of industrial process piping design. The examples come from power plant, industrial and heat distribution pipelines.
Supporting pipelines and connecting them to other structures.
The course emphasizes the importance of sustainable development in factory design and utilizes digital solutions.

Learning materials and recommended literature

Lecture material

Koneenpiirustus 1 & 2, Pere A, Kirpe Oy, Helsinki, 2021. ISBN 978-952-67419-3-2 or newer.

Teaching methods

Lectures, Video lectures and learning tasks and exercises based on problem-based learning, which introduce the various aspects of technical drawing.
Free-form anonymous feedback is collected in the middle of the course.

The implementation of the course is based on classroom-based contact teaching. About half of the contact course is theory lectures and half is learning practical drawing/modelling with CAD software. The subjects are familiarized with the written lecture material and the course book. During the study period, students do weekly learning assignments, which are evaluated as pass / needs improvement / fail.

The responsible and transparent use of AI applications is encouraged in this course. Instructions for using artificial intelligence can be found in chapter 3.2 (https://help.jamk.fi/raportointiohje/fi/3-kirjoittamisprosessi/tekoalyn-kaytto-oppimistehtavissa-ja-opinnaytetyossa/) of the thesis reporting instructions. If necessary, the instructions for each learning assignment contain more detailed information on how to use it in that particular task.

If the student has not been present at the first contact class, and does not return the first learning task with the group within the deadline, he/she will be removed from the course, and after that he/she can no longer participate in this implementation of the course.

There is an 80% attendance requirement for contact classes in the course.

Practical training and working life connections

If possible, a representative of the engineering office will give a visiting lecture during the study period

Exam dates and retake possibilities

No test

Alternative completion methods

The assessment of previous competence is made on the first contact. It is possible to obtain exemptions, where applicable, on the basis of previous study

Student workload

Lectures 45 h
Learning assignments 70 h
Independent work 20 h
A total of 135 h

Content scheduling

Contact classes are implemented according to a separate implementation-specific course plan, which is published in Moodle.

Further information for students

Continuous developmental feedback is given in the learning tasks.

All learning assignments are mandatory and must be completed successfully. You will pass the course by successfully completing all the learning assignments in time

Evaluation scale

Pass/Fail

Evaluation criteria, pass/failed

The student completes the assigned tasks and returns them according to the agreed schedule.

Prerequisites

Technical drawing and CAD, process design, pressure equipment design and basic knowledge of mathematics, physics and chemistry

Enrollment

01.11.2024 - 09.01.2025

Timing

13.01.2025 - 18.05.2025

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Main Campus

Teaching languages
  • Finnish
Degree programmes
  • Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
  • Antti Henell
  • Toni Hiltunen
Groups
  • TER22SM
    Energia- ja ympäristötekniikka (AMK)

Objectives

The student knows basics of pipeline design and can design piping network with PI- and LAYOUT-drawing

Content

Basics of industrial process piping design. The examples come from power plant, industrial and heat distribution pipelines.
Supporting pipelines and connecting them to other structures.
The course emphasizes the importance of sustainable development in factory design and utilizes digital solutions.

Learning materials and recommended literature

Lecture material

Koneenpiirustus 1 & 2, Pere A, Kirpe Oy, Helsinki, 2021. ISBN 978-952-67419-3-2 or newer.

Teaching methods

Lectures, information retrieval, and applied learning assignments. The learning assignments are mainly done individually. The different areas of pipeline design are introduced through lectures, video lectures, and problem-based learning assignments and projects.
Free-form anonymous feedback is collected in the middle of the course.

The implementation of the course is based on classroom-based contact teaching. About half of the contact course is theory lectures and half is learning practical drawing/modelling with CAD software. The subjects are familiarized with the written lecture material and the course book. During the study period, students do weekly learning assignments, which are evaluated as pass / needs improvement / fail.

The responsible and transparent use of AI applications is encouraged in this course. Instructions for using artificial intelligence can be found in chapter 3.2 (https://help.jamk.fi/raportointiohje/fi/3-kirjoittamisprosessi/tekoalyn-kaytto-oppimistehtavissa-ja-opinnaytetyossa/) of the thesis reporting instructions. If necessary, the instructions for each learning assignment contain more detailed information on how to use it in that particular task.

If the student has not been present at the first contact class, and does not return the first learning task with the group within the deadline, he/she will be removed from the course, and after that he/she can no longer participate in this implementation of the course.

There is an 80% attendance requirement for contact classes in the course.

Practical training and working life connections

If possible, a representative of the engineering office will give a visiting lecture during the study period

Exam dates and retake possibilities

No test

Alternative completion methods

The assessment of previous competence is made on the first contact. It is possible to obtain exemptions, where applicable, on the basis of previous study

Student workload

Lectures 30 h
Learning assignments 70 h
Independent work 35 h
A total of 135 h

Content scheduling

Contact classes are implemented according to a separate implementation-specific course plan, which is published in Moodle.

Further information for students

Continuous developmental feedback is given in the learning tasks.

All learning assignments are mandatory and must be completed successfully. You will pass the course by successfully completing all the learning assignments in time

Evaluation scale

Pass/Fail

Evaluation criteria, pass/failed

The student completes the assigned tasks and returns them according to the agreed schedule.

Prerequisites

Technical drawing and CAD, process design, pressure equipment design and basic knowledge of mathematics, physics and chemistry

Enrollment

20.11.2023 - 04.01.2024

Timing

01.01.2024 - 19.05.2024

Number of ECTS credits allocated

5 op

Mode of delivery

Face-to-face

Unit

School of Technology

Campus

Main Campus

Teaching languages
  • Finnish
Seats

0 - 50

Degree programmes
  • Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
  • Toni Hiltunen
Teacher in charge

Antti Henell

Groups
  • TER21S1
    Energia- ja ympäristötekniikka (AMK)
  • TER21SM
    Energia- ja ympäristötekniikka (AMK)

Objectives

The student knows basics of pipeline design and can design piping network with PI- and LAYOUT-drawing

Content

Basics of industrial process piping design. The examples come from power plant, industrial and heat distribution pipelines.
Supporting pipelines and connecting them to other structures.
The course emphasizes the importance of sustainable development in factory design and utilizes digital solutions.

Learning materials and recommended literature

Luentomateriaali

Koneenpiirustus 1 & 2, Pere A, Kirpe Oy, Helsinki, 2021. ISBN 978-952-67419-2-5 ISBN 978-952-67419-3-2

Teaching methods

Luennot, tiedonhaku ja soveltavat oppimistehtävät. Oppimistehtäviä tehdään pääasiassa yksilötyönä.

Exam dates and retake possibilities

Ei tenttiä

Alternative completion methods

Muulla tavoin hankittu osaaminen opinnollistetaan opintojakson opettajan kanssa sovittavalla tavalla.

Student workload

Kontaktiopetus 52 h, oppimistehtävät 83 h. Yhteensä 135 h oppimistyötä.

Content scheduling

Kevät lukukausi

Further information for students

Kaikki oppimistehtävät ovat pakollisia ja ne pitää suorittaa hyväksytysti.

Evaluation scale

Pass/Fail

Evaluation criteria, pass/failed

The student completes the assigned tasks and returns them according to the agreed schedule.

Prerequisites

Technical drawing and CAD, process design, pressure equipment design and basic knowledge of mathematics, physics and chemistry

Enrollment

01.11.2022 - 05.01.2023

Timing

01.01.2023 - 17.05.2023

Number of ECTS credits allocated

5 op

Virtual portion

2 op

Mode of delivery

60 % Face-to-face, 40 % Online learning

Unit

School of Technology

Teaching languages
  • Finnish
Seats

0 - 60

Degree programmes
  • Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
  • Antti Henell
Groups
  • TER20SM
    Energia- ja ympäristötekniikka (AMK)
  • TER20S1
    Energia- ja ympäristötekniikka

Objectives

The student knows basics of pipeline design and can design piping network with PI- and LAYOUT-drawing

Content

Basics of industrial process piping design. The examples come from power plant, industrial and heat distribution pipelines.
Supporting pipelines and connecting them to other structures.
The course emphasizes the importance of sustainable development in factory design and utilizes digital solutions.

Learning materials and recommended literature

Luentomateriaali

Teaching methods

Luennot, tiedonhaku ja soveltavat oppimistehtävät. Oppimistehtäviä tehdään pääasiassa yksilötyönä.

Exam dates and retake possibilities

Tentti ja kaksi uusintaa

Alternative completion methods

Muulla tavoin hankittu osaaminen opinnollistetaan opintojakson opettajan kanssa sovittavalla tavalla.

Student workload

Kontaktiopetus 52 h, oppimistehtävät 83 h. Yhteensä 135 h oppimistyötä.

Content scheduling

Kevät lukukausi

Further information for students

Kaikki oppimistehtävät ovat pakollisia ja ne pitää suorittaa hyväksytysti.

Evaluation scale

Pass/Fail

Evaluation criteria, pass/failed

The student completes the assigned tasks and returns them according to the agreed schedule.

Prerequisites

Technical drawing and CAD, process design, pressure equipment design and basic knowledge of mathematics, physics and chemistry