Course detail

Technical Diagnostics I

FSI-XT1Acad. year: 2022/2023

The course is focused on modern knowledge of technical diagnostics of machines and equipment. Emphasis is placed on theoretical knowledge of technical diagnostics, such as integration of technical diagnostics into product quality, clarification and description of diagnostic systems, further analysis of diagnostic models, diagnostic signals and division of technical diagnostics according to various aspects. Subsequently, attention is focused on selected diagnostic methods, such as thermodiagnostics and other methods are outlined, which will be discussed in detail in the following subject. Emphasis is always placed on the use of individual diagnostics to assess the condition of a technical object. In this course, the selected and discussed methods are important for understanding multi-parameter diagnostics. The course is supplemented by exercises where the most important topics are properly practiced. There is also a discussion of the results and conclusions in the exercises. The course Technical Diagnostics I is followed by the course Technical Diagnostics II, which is a continuation of the description and analysis of other diagnostic methods suitable for assessing the state of technical objects. By studying both courses the student gains comprehensive knowledge of multiparametric diagnostics of machines and equipment. The findings are also based on the content of Industry 4.0.

Language of instruction

Czech

Number of ECTS credits

5

Mode of study

Not applicable.

Learning outcomes of the course unit

Students will acquire extended knowledge of technical diagnostics, which will enable them to engage in industrial engineering and electrical engineering in solving various problems related to the issue.

Prerequisites

Knowledge of mathematics and physics on the level of the bachelor studies completed so far is assumed.

Co-requisites

Not applicable.

Planned learning activities and teaching methods

The subject consists of lectures and laboratory. According to the possibility of teaching can be organized lectures for students by practitioners and excursions to companies focused on activities related to the course content.


Assesment methods and criteria linked to learning outcomes

The course consists of exercises and lectures. Exercise is completed by credit (awarded in the 13th week). To obtain it is required 100% participation in exercises and activity in exercises. Students will work out the individual work in the prescribed range and quality. Based on the quality of the work in the exercise, the student earns up to 30 points for the exam The work must be submitted in writing and checked and recognized by the teacher. The test is realized by written test, student can get up to 70 points from this test, where 30 points from exercises. Evaluation of the test result is given by the ECTS grading scale.

Course curriculum


Work placements

Not applicable.

Aims

The objective of the subject is to acquire the theoretical and practical knowledge of the diagnostics of technical systems.

Specification of controlled education, way of implementation and compensation for absences

The student attendance is checked in tutorials (presence and activity). The 100% participation in tutorials is required, and in case of absence, the student will be obliged to compensate, the alternative attendance will be specified by the lecturer.

Recommended optional programme components

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

HELEBRANT,F; ZIEGLER,J. Technická diagnostika a spolehlivost, II. Vibrodiagnostika. 1. vydání-dotisk. VŠB – Technická univerzita Ostrava, 2005. 178 s. ISBN 80-248-0650-9. (CS)
KREIDL,M; ŠMÍD,R. Technická diagnostika. Senzory-metody-analýza signálu. 1. vydání. Praha: BEN-technická literatura, 2006,408 s. ISBN 80-7300-158-6. (CS)

Recommended reading

BLACK, H., DOCKRELL, W. Diagnostic Assessment in Technical Education: A Teacher's Handbook. 1980. 75 s. ISBN 978-0901116253. (EN)
HAMMER,Miloš. Metody umělé inteligence v diagnostice elektrických strojů. 1. vydání. Praha: BEN – technická literatura, 2009. 400 s. ISBN 978-80-7300-231-2. (CS)
THOMPSON, M.; VAN DEN BRUEL. Diagnostic Tests Toolkit (EBMT-EBM Toolkit Series). Wiley-Blackwell. 2011. 112 s. ISBN 978-0470657584. (CS)
DUFFUAA, S. O., RAOUF, A. Planning and Control of Maintenance Systems. Modelling a Analysis. 2. vydání. Springer International Publishing AG, Switzerland, 2016. 348 s. ISBN 9783319371818. (EN)

Elearning

Classification of course in study plans

  • Programme N-KSB-P Master's 1 year of study, summer semester, compulsory

  • Programme LLE Lifelong learning

    branch CZV , 1 year of study, summer semester, compulsory

Type of course unit

 

Lecture

26 hod., optionally

Teacher / Lecturer

Syllabus

1. Basic terminology of technical diagnostics.
2. Diagnostic systems and their description.
3. Sensors, sensor parameters. Smart sensors.
4. Technical diagnostics, classification, methods and means.
5. Data collection for diagnostics of machines and equipment, ways of their evaluation. Statistical data analysis.
6. Determination of machine and equipment condition in technical diagnostics, classification methods, frequency data analysis.
7. Determination of machines and equipment in technical diagnostics, expert systems, fuzzy systems, neural networks.
8. Technical diagnostics within Industry 4.0, cloud systems, IoT systems.
9. Thermodiagnostics - physical properties of sensors.
10. Thermodiagnostics - contact methods.
11. Thermodiagnostics - non-contact methods, thermography.
12. Non-destructive diagnostics using thermography.
13. Other methods of technical diagnostics (level, flow rate and others).

Computer-assisted exercise

26 hod., compulsory

Teacher / Lecturer

Syllabus

1. Introduction, organizational issues, work safety, basics of technical diagnostics, instrument diagnostic tools.
2. Characteristics of instrumentation used in practice. Basic parameters of instruments, basic operation of instruments.
3. Verification of sensor properties for contact temperature measurement - static properties.
4. Verification of sensor properties for contact temperature measurement - dynamic properties
5. Verification of thermal imager properties - basic measurement, SW processing.
6. Verification of thermal imaging properties - measurements focused on thermal imaging properties.
7. Determination of emissivity of various materials based on measurements.
8. Thermodiagnostics of rotating machines.
9. Thermodiagnostics of rotating machines.
10. Non-destructive diagnostics using thermography.
11. Remote diagnostics of machines, on-line diagnostics of machines.
12. Completion and evaluation of technical reports (protocols).
13. Credit.

Elearning