Study Guide

Objective

After completing this course, you will be able to

identify an industrial process based on a flow chart or a PI diagram
describe basic instrumentation loops, their tags and instruments
present the process industry instruments and their working principles
explain the basic principles of electrification, cabling and grounding systems
choose and rate instruments and electric drives for different applications.

Content

How to identify different kinds of process machines and instruments in flow charts?
How to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum?
How to connect an instrument or an electric motor to a control system?
How to choose and rate an electric motor and what kind of power supply does it need?

Materials

1. Materials, instructions and assignments in Learn.
2. Joronen, T., Kovacs, J., Majanne, Y., Voimalaitosautomaatio. Suomen Automaatioseura ry 2007. 276 s. Kappaleet 3, 4, 6, 7, 8.
3. Bolton, W. Instrumentation and control systems, Elsevier, UK, 2004, 339 p.

Teaching methods

Scheduled track:
After completing this course, you will be able to
- identify an industrial process based on a flow chart or PI diagram
- describe basic instrumentation loops, their tags and instruments
- present basic measurement instruments and their working principles
- explain the basic principles of electrification, cabling and grounding systems
- choose and rate instruments and electric motors for different applications.
How are able to see different kinds of process machines and instruments in flow charts?
How are you able to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How are you able to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum? How do you connect an instrument or an electric motor to a control system?
How do you choose and rate an electric motor and what kind of power supply does it need?

Independent track:
Exam and project integrated in one's own work.

Blended track:
Exam and intended training projects.

Employer connections

RDI work is not included in the course.

Student workload

Contact and online lectures 36 h
Lab projects 24 h
Self-study 75 h

Evaluation scale

1-5

Assessment methods and criteria

Exam (65 %) and projects (35 %), with grades 0-5, both are expected to be accepted.

Qualifications

Prerequisite courses are
Energy engineering physics
Energy engineering chemistry
Basics of electrical engineering and electronics

Objective

After completing this course, you will be able to

identify an industrial process based on a flow chart or a PI diagram
describe basic instrumentation loops, their tags and instruments
present the process industry instruments and their working principles
explain the basic principles of electrification, cabling and grounding systems
choose and rate instruments and electric drives for different applications.

Content

How to identify different kinds of process machines and instruments in flow charts?
How to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum?
How to connect an instrument or an electric motor to a control system?
How to choose and rate an electric motor and what kind of power supply does it need?

Materials

1. Materials, instructions and assignments in Learn.
2. Joronen, T., Kovacs, J., Majanne, Y., Voimalaitosautomaatio. Suomen Automaatioseura ry 2007. 276 s. Kappaleet 3, 4, 6, 7, 8.
3. Bolton, W. Instrumentation and control systems, Elsevier, UK, 2004, 339 p.

Teaching methods

Scheduled track:
After completing this course, you will be able to
- identify an industrial process based on a flow chart or PI diagram
- describe basic instrumentation loops, their tags and instruments
- present basic measurement instruments and their working principles
- explain the basic principles of electrification, cabling and grounding systems
- choose and rate instruments and electric motors for different applications.
How are able to see different kinds of process machines and instruments in flow charts?
How are you able to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How are you able to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum? How do you connect an instrument or an electric motor to a control system?
How do you choose and rate an electric motor and what kind of power supply does it need?

Independent track:
Exam and project integrated in one's own work.

Blended track:
Exam and intended training projects.

Employer connections

RDI work is not included in the course.

Exam schedules

Exam 11.12.2023.
Resit exams 5.2.2024 and 3/2024 in Exam.
Please, reservations in advance are needed in Exam.

Student workload

Online lectures 28 h
Lab projects 6 h / group
Self-study 101 h

Evaluation scale

1-5

Assessment methods and criteria

Exam (70 %) and projects (30 %), with grades 0-5, both are expected to be accepted.

Qualifications

Prerequisite courses are
Energy engineering physics
Energy engineering chemistry
Basics of electrical engineering and electronics

Objective

After completing this course, you will be able to

identify an industrial process based on a flow chart or a PI diagram
describe basic instrumentation loops, their tags and instruments
present the process industry instruments and their working principles
explain the basic principles of electrification, cabling and grounding systems
choose and rate instruments and electric drives for different applications.

Content

How to identify different kinds of process machines and instruments in flow charts?
How to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum?
How to connect an instrument or an electric motor to a control system?
How to choose and rate an electric motor and what kind of power supply does it need?

Materials

1. Materials, instructions and assignments in Learn.
2. Joronen, T., Kovacs, J., Majanne, Y., Voimalaitosautomaatio. Suomen Automaatioseura ry 2007. 276 s. Kappaleet 3, 4, 6, 7, 8.
3. Bolton, W. Instrumentation and control systems, Elsevier, UK, 2004, 339 p.

Teaching methods

Scheduled track:
After completing this course, you will be able to
- identify an industrial process based on a flow chart or PI diagram
- describe basic instrumentation loops, their tags and instruments
- present basic measurement instruments and their working principles
- explain the basic principles of electrification, cabling and grounding systems
- choose and rate instruments and electric motors for different applications.
How are able to see different kinds of process machines and instruments in flow charts?
How are you able to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How are you able to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum? How do you connect an instrument or an electric motor to a control system?
How do you choose and rate an electric motor and what kind of power supply does it need?

Independent track:
Exam and project integrated in one's own work.

Blended track:
Exam and intended training projects.

Employer connections

RDI work is not included in the course.

Student workload

Contact and online lectures 36 h
Lab projects 24 h
Self-study 75 h

Evaluation scale

1-5

Assessment methods and criteria

Exam (65 %) and projects (35 %), with grades 0-5, both are expected to be accepted.

Qualifications

Prerequisite courses are
Energy engineering physics
Energy engineering chemistry
Basics of electrical engineering and electronics

Objective

After completing this course, you will be able to

identify an industrial process based on a flow chart or a PI diagram
describe basic instrumentation loops, their tags and instruments
present the process industry instruments and their working principles
explain the basic principles of electrification, cabling and grounding systems
choose and rate instruments and electric drives for different applications.

Content

How to identify different kinds of process machines and instruments in flow charts?
How to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum?
How to connect an instrument or an electric motor to a control system?
How to choose and rate an electric motor and what kind of power supply does it need?

Materials

1. Materials, instructions and assignments in Learn.
2. Joronen, T., Kovacs, J., Majanne, Y., Voimalaitosautomaatio. Suomen Automaatioseura ry 2007. 276 s. Kappaleet 3, 4, 6, 7, 8.
3. Bolton, W. Instrumentation and control systems, Elsevier, UK, 2004, 339 p.

Teaching methods

Scheduled track:
After completing this course, you will be able to
- identify an industrial process based on a flow chart or PI diagram
- describe basic instrumentation loops, their tags and instruments
- present basic measurement instruments and their working principles
- explain the basic principles of electrification, cabling and grounding systems
- choose and rate instruments and electric motors for different applications.
How are able to see different kinds of process machines and instruments in flow charts?
How are you able to identify measurement, control, valve and motor loops and their operation principles in PI diagrams?
How are you able to measure the temperature of a furnace, the flow and conductivity of feed water, or the level of a steam drum? How do you connect an instrument or an electric motor to a control system?
How do you choose and rate an electric motor and what kind of power supply does it need?

Independent track:
Exam and project integrated in one's own work.

Blended track:
Exam and intended training projects.

Employer connections

RDI work is not included in the course.

Exam schedules

Resit exams:
16.5.2023, 17.30-19 online

Student workload

Contact and online lectures 36 h
Lab projects 24 h
Self-study 75 h

Evaluation scale

1-5

Assessment methods and criteria

Exam (65 %) and projects (35 %), with grades 0-5, both are expected to be accepted.

Qualifications

Prerequisite courses are
Energy engineering physics
Energy engineering chemistry
Basics of electrical engineering and electronics