MECA0531-1

Duration

26h Th, 14h Pr, 12h Labo., 1d FW

Number of credits

	Master Msc. in Energy Engineering, professional focus in Energy Conversion	5 crédits
	Master MSc. in Electromechanical Engineering, professional focus in energetics (Réinscription uniquement, pas de nouvelle inscription)	3 crédits

Lecturer

Samuel Gendebien

Language(s) of instruction

English language

Organisation and examination

Teaching in the first semester, review in January

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

The course is dedicated to process control, the application of measurement techniques and to the associated data processing for the performance evaluation components and processes in energy conversion. These techniques are applied in the frame of new component development as well as in the performance monitoring of components used industrial production environment.

The course begins with an introduction describing the measurement chain and continues with the following chapters:

Sensors characteristics, specification and calibration (principle, methods and reports),
Propagation of uncertainties and choice of the appropriate instrumentation,
Uncertainty and statistical data processing of measurement (data rejection),
Overview of different measurement techniques: temperature, pressure and mass flow rate measurement, directional probes, velocity and humidity measurement and mass flow meters,
Model calibration and parameters identification,
Introduction to process control,
Design of test rigs (redundancy of measurement, energy and mass balance verifications, importance of calibration and method of reconciliation of measured data).

Two laboratory session are organized and dedicated to:

Calibration and parameters identification of a pump,
Experimental characterization of a vapor compression cycle (illustrating the use of measurement techniques and uncertainty propagation),
Process control.

A factory tour is also organized to illustrate the concept related to the evaluation of industrial processes. Finally, a session dedicated to the calibration of temperature and pressure sensors will also be conducted by an industrial partner.

Exercises related to real-life applications are solved to illustrate the theoretical concepts studied in class.

Students will also be tasked with designing a test rig as part of their semester-long project.

Learning outcomes of the learning unit

At the end of this course, the student masters the measurement techniques for establishing the performance of components, vapor compression cycles and industrial processes (measurement chain, selection of sensors, propagation of uncertainties).

The student is able to select the appropriate data processing technique for the application at hand.

The student knows the statistical techniques enabling reliable analysis of experimental data (outlier rejection, model calibration, parameters identification and data reconciliation).

The student is familiar with the different process control methods and is able to practically implement one of these methods.

By carefully integrating all the relevant constraints and design considerations, the students will be able to create an experimental apparatus that effectively supports their project goals.

Prerequisite knowledge and skills

Prerequisite or corequisite units are presented within each program.

Planned learning activities and teaching methods

The course is divided into lectures that take place every Wednesday morning.

The theoretical concepts seen during the course are illustrated with exercises. A detailed schedule is provided to the students at the first lecture.

Three laboratory sessions, a factory tour and a session about sensors calibration are organized. Attendance is mandatory for those five activities.

Students will also be tasked with designing a test rig for their semester-long project. The project will be evaluated during an oral exam.

Mode of delivery (face to face, distance learning, hybrid learning)

Face-to-face course

Course materials and recommended or required readings

Slides are available for theory and exercise sessions.

Exam(s) in session

Any session

- In-person

oral exam

Written work / report

Continuous assessment

Work placement(s)

Organisational remarks and main changes to the course

The exact schedule and the deadlines are communicated during the first lecture.

The theoretical lectures will be taught in English.

Contacts

Samuel GENDEBIEN

Laboratoire de Thermodynamique, B49 tél : +32 (0)4 366 4800 sgendebien@uliege.be

Pierre DEWALLEF

Laboratoire de Thermodynamique, B49 tél : +32 (0)4 366 99 95 p.dewallef@uliege.be

Experimental Evaluation of Components and Processes