Curricula

Objectives

You will know pressure vessel law and rules of inspection companies. You will understand and can design pressure vessels and -pipelines.

EA-KW KNOWLEDGE AND UNDERSTANDING
Knowledge and understanding of engineering disciplines underlying their specialisation, at a level necessary to achieve the other programme outcomes, including some awareness at their forefront

EA-EC ENGINEERING PRACTICE
Ability to use the awareness of the forefront of their engineering specialisation in design and development. Ability to apply norms of engineering practice in their engineering specialisation.

EUR-MC MULTIDISCIPLINARY COMPETENCES
Awareness of the wider multidisciplinary context of engineering. Awareness of societal, health and safety, environmental, economic and industrial implications of engineering practice and recognition of the constraints that they pose.

Content

Pressure vessel standards
Rules fir inspection companies and pressure vessels
Strenght of materials for pressure vessels

Learning materials and recommended literature

Lecture notes. Pressure vessel standards, Standard of industrial pipelines, Pressure vessel law.

Teaching methods

Lectures, video lectures and examples. Through problem-based learning, you have tasks that you set out to solve. You can use videotaped examples, videotaped theory lectures or discussion forums to help you solve the assignments. You can solve the tasks alone or in groups, but the submissions are always individual. In pure remote implementations, you use webinars or video lectures to help with guidance. In face-to-face implementations, it is possible to calculate tasks in a common space with the help of a teacher.
You must be present at the first lecture (either remotely or face-to-face), and the first assignments must be submitted on time. If the above is not realized, the student will be removed from the course.In the middle of the course, you give anonymous feedback.

Exam dates and retake possibilities

Two exams: Pressure vessel law theory exam and calculation exam. Re-exams 2 pcs in May.

Alternative completion methods

Muulla tavalla hankitun osaamisen opinnollistaminen sovitaan opinjakson opettajan kanssa
tapauskohtaisesti

Student workload

Lectures and excercises 56 h
Independent work 79 h
Totally 135 h

Further information for students

The course grade consists of:
- 33.3% of the Pressure Vessel Law exam
- 66.7% of Pressure Vessel Design (calculation) exam

Evaluation scale

0-5

Evaluation criteria, satisfactory (1-2)

Adequate (1): The student identifies the basic knowledge and terminology but in the interpreting of the essential concepts the skills are still inadequate.

Satisfactory (2): The student is familiar with the basic knowledge and terminology but it’s challenging to make device controls independently.

Evaluation criteria, good (3-4)

Good (3): The student masters the essential knowledge of the course

Very good (4): The student masters the essential knowledge and can apply the knowledge.

Evaluation criteria, excellent (5)

Excellent (5): The student masters the essential knowledge and can apply the knowledge acquired in a creative and innovative manner.

Prerequisites

Technical drawing and CAD
Material of process technics