The Department of Power Engineering Equipment of the TUL has a PIV system suitable for measuring 2D and 3D velocity fields in fluids. The system is based on optical (non-contact) measurement methods, therefore the velocity fields in the measured area are not affected.
The subject of the diploma thesis is the measurement of pressure loss and analysis of homogeneity of velocity fields in the inner channel of the gas meter model. The aim of the diploma thesis is to search for measuring methods suitable for measuring pressure loss and analysis of velocity fields in flow in channels, to design a measuring stand and to perform and evaluate measurements.
Principles for elaboration:
- Overview of measuring methods.
- Description of the principles of measurement by the PIV method.
- Experiment design.
- Proposal of methodology for evaluation.
- Preparation and realization of the experiment.
- Evaluation of results.
Anotace v angličtině
The Department of Power Engineering Equipment of the TUL has a PIV system suitable for measuring 2D and 3D velocity fields in fluids. The system is based on optical (non-contact) measurement methods, therefore the velocity fields in the measured area are not affected.
The subject of the diploma thesis is the measurement of pressure loss and analysis of homogeneity of velocity fields in the inner channel of the gas meter model. The aim of the diploma thesis is to search for measuring methods suitable for measuring pressure loss and analysis of velocity fields in flow in channels, to design a measuring stand and to perform and evaluate measurements.
Principles for elaboration:
- Overview of measuring methods.
- Description of the principles of measurement by the PIV method.
- Experiment design.
- Proposal of methodology for evaluation.
- Preparation and realization of the experiment.
- Evaluation of results.
Klíčová slova
flow measurement, PIV, velocity, pressure
Klíčová slova v angličtině
flow measurement, PIV, velocity, pressure
Rozsah průvodní práce
57 s. (68 205 znaků)
Jazyk
AN
Anotace
The Department of Power Engineering Equipment of the TUL has a PIV system suitable for measuring 2D and 3D velocity fields in fluids. The system is based on optical (non-contact) measurement methods, therefore the velocity fields in the measured area are not affected.
The subject of the diploma thesis is the measurement of pressure loss and analysis of homogeneity of velocity fields in the inner channel of the gas meter model. The aim of the diploma thesis is to search for measuring methods suitable for measuring pressure loss and analysis of velocity fields in flow in channels, to design a measuring stand and to perform and evaluate measurements.
Principles for elaboration:
- Overview of measuring methods.
- Description of the principles of measurement by the PIV method.
- Experiment design.
- Proposal of methodology for evaluation.
- Preparation and realization of the experiment.
- Evaluation of results.
Anotace v angličtině
The Department of Power Engineering Equipment of the TUL has a PIV system suitable for measuring 2D and 3D velocity fields in fluids. The system is based on optical (non-contact) measurement methods, therefore the velocity fields in the measured area are not affected.
The subject of the diploma thesis is the measurement of pressure loss and analysis of homogeneity of velocity fields in the inner channel of the gas meter model. The aim of the diploma thesis is to search for measuring methods suitable for measuring pressure loss and analysis of velocity fields in flow in channels, to design a measuring stand and to perform and evaluate measurements.
Principles for elaboration:
- Overview of measuring methods.
- Description of the principles of measurement by the PIV method.
- Experiment design.
- Proposal of methodology for evaluation.
- Preparation and realization of the experiment.
- Evaluation of results.
Klíčová slova
flow measurement, PIV, velocity, pressure
Klíčová slova v angličtině
flow measurement, PIV, velocity, pressure
Zásady pro vypracování
The Department of Power Engineering Equipment of the TUL has a PIV system suitable for measuring 2D and 3D velocity fields in fluids. The system is based on optical (non-contact) measurement methods, therefore the velocity fields in the measured area are not affected.
The subject of the diploma thesis is the measurement of pressure loss and analysis of homogeneity of velocity fields in the inner channel of the gas meter model. The aim of the diploma thesis is to search for measuring methods suitable for measuring pressure loss and analysis of velocity fields in flow in channels, to design a measuring stand and to perform and evaluate measurements.
Principles for elaboration:
- Overview of measuring methods.
- Description of the principles of measurement by the PIV method.
- Experiment design.
- Proposal of methodology for evaluation.
- Preparation and realization of the experiment.
- Evaluation of results.
Zásady pro vypracování
The Department of Power Engineering Equipment of the TUL has a PIV system suitable for measuring 2D and 3D velocity fields in fluids. The system is based on optical (non-contact) measurement methods, therefore the velocity fields in the measured area are not affected.
The subject of the diploma thesis is the measurement of pressure loss and analysis of homogeneity of velocity fields in the inner channel of the gas meter model. The aim of the diploma thesis is to search for measuring methods suitable for measuring pressure loss and analysis of velocity fields in flow in channels, to design a measuring stand and to perform and evaluate measurements.
Principles for elaboration:
- Overview of measuring methods.
- Description of the principles of measurement by the PIV method.
- Experiment design.
- Proposal of methodology for evaluation.
- Preparation and realization of the experiment.
- Evaluation of results.
Seznam doporučené literatury
SCHLICHTING, Hermann a Klaus GERSTEN. Boundary-Layer Theory. 9th ed. 2017. Springer, 2017. ISBN 978-3-662-52917-1.
DOEBELIN, Ernest O. Measurement systems: application and design. Fourth edition. New York: McGraw-Hill Publishing Company, [1990]. McGraw-Hill international editions. Mechanical engineering series. ISBN 0-07-100697-4.
GREATED, Clive, John COSGROVE a James BUICK. Optical Methods for Data Processing in Heat and Fluid Flow. Bury St. Edmunds: Professional Engineering Publishing, 2002. ISBN 1-86058-281-8.
Seznam doporučené literatury
SCHLICHTING, Hermann a Klaus GERSTEN. Boundary-Layer Theory. 9th ed. 2017. Springer, 2017. ISBN 978-3-662-52917-1.
DOEBELIN, Ernest O. Measurement systems: application and design. Fourth edition. New York: McGraw-Hill Publishing Company, [1990]. McGraw-Hill international editions. Mechanical engineering series. ISBN 0-07-100697-4.
GREATED, Clive, John COSGROVE a James BUICK. Optical Methods for Data Processing in Heat and Fluid Flow. Bury St. Edmunds: Professional Engineering Publishing, 2002. ISBN 1-86058-281-8.
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