Analysis of Advanced Thermal Process Systems
2022/2023
Recommended prerequisite for participation in the module
The module is based on knowledge achieved when studying the 2nd semester on the Master of Science in Energy Engineering with a thermal specialisation or Master of Science in Sustainable Energy Engineering with a specialisation in Process Engineering and Combustion Technology or similar.Content, progress and pedagogy of the module
Learning objectives
Knowledge
- Have comprehension of the aspects of integration and analysis
of advanced thermal processes regarding, for example:
- Analysis and optimisation of thermal systems using techniques such as pinch analysis and heat exchanger network synthesis using mathematical programming techniques
- Case: Modelling of part-load conditions in thermal systems including practical control aspects
- Case: Modelling and integration of advanced fuel cell systems
- Have knowledge about advanced fluid dynamical topics and system
analysis of such systems related , for example:
- Techniques involved in the design of heat/mass exchangers – shell-and-tube, plate, extended surface, evaporators, condensers, humidifiers, etc. Flow induced vibrations
- Two-phase fluid flow, models, boiling, condensation and instabilities
- Equations of State. Thermodynamic functions/properties. Maxwell’s relations. Residual properties. Phase equilibrium and phase change
- Heat transfer by radiation. Modelling methods (e.g. Discrete Ordinate, Discrete Transfer, Monte-Carlo, etc). Gaseous radiative properties. CFD modelling of radiative heat transfer
Skills
- Be able to identify the elements related to the control aspects of thermal systems
- Be able to apply the knowledge gained to set up experiments on advanced fluid dynamical systems
- Be able to apply the knowledge on advanced fluid dynamical systems related to the above topics
Competences
- Independently be able to define and analyse scientific problems within the area of advanced thermal process systems and advanced fluid dynamical systems
- Independently be able to be a part of professional and interdisciplinary development work within the area of thermal process systems and advanced fluid dynamical systems
Type of instruction
The course is taught by a mixture of lectures, workshops, exercises, mini-projects and self-study.
Extent and expected workload
Since it is a 5 ECTS course module, the work load is expected to be 150 hours for the student.
Exam
Exams
| Name of exam | Analysis of Advanced Thermal Process Systems |
| Type of exam | Oral exam |
| ECTS | 5 |
| Assessment | 7-point grading scale |
| Type of grading | Internal examination |
| Criteria of assessment | The criteria of assessment are stated in the Examination Policies and Procedures |
Facts about the module
| Danish title | Analyse af avancerede termiske processer |
| Module code | N-EE-K3-10 |
| Module type | Course |
| Duration | 1 semester |
| Semester | Autumn
|
| ECTS | 5 |
| Language of instruction | English |
| Empty-place Scheme | Yes |
| Location of the lecture | Campus Aalborg, Campus Esbjerg |
| Responsible for the module |
Organisation
| Study Board | Study Board of Energy |
| Department | Department of Energy |
| Faculty | The Faculty of Engineering and Science |
