Title: Computational science and engineering applied to air conditioning systems
Short Code: EVA_DSH
ECTS Credits: 3
UAS: ZHAW
Organizer Details: Frank Tillenkamp: till@zhaw.ch, Christian Ghiaus: christian.ghiaus@insa-lyon.fr
Evaluation:

33.3% Written 1h, w/o documents on 24/05/2024

33.3% Written report of group work due on 22/05/2024

33.3% Oral presentation of group work on 24/05/2024
Decision Date: 21. Februar 2023 
Start Date: 15. April 2024 
End Date: 24. Mai 2024 
Date Details:

Lectures in Winterthur: 15/04/2024 09:00 – 19/04/2024 18:00

Type:

Face to face lectures and tutorials

(15/04/2024 – 17/04/2024)

20 h (22 %)

Tutorial and accompanied mini-project

(17/04/2023 – 19/04/2023)

20 h (22 %)

Autonomous group project

(22/04/2024 – 22/05/2024)

50 h (56 %)

Total

90 h (100 %)

Language(s):

English

Description (max. 300 characters):

Air conditioning increases productivity and comfort but it is responsible for about 15 % of total energy consumption. The course develops competences for practical optimization of air conditioning systems coupled to buildings by using computational thinking and Python implementation.

Contents and Learning Objectives:

Face to face

Lectures

Module 1: Psychrometrics (numerical calculation of moist air properties, typical transformations). Thermal comfort.

Module 2: Modelling of typical elements of air conditioning systems

Module 3: Modelling and simulation of air conditioning systems coupled to buildings

 

Tutorials

Tutorial 1: Calculation of moist air properties

Tutorial 2: Numerical modelling of air conditioning systems

Tutorial 3: Coupling air conditioning systems to buildings

 

Accompanied individual project:

Free-cooling

Air mixing and heating

Air-mixing, heating, humidification

Heat recovery, heating, adiabatic humidification

Heat recovery and cooling

 

Autonomous group project:

The students will define their own subject on indoor climate control (temperature and humidity): a building and its air conditioning system will be modelled. On this model, optimisation of design parameters and energy management will be done.

Examples of projects: detached house, school, office building, green house, supermarket, research laboratory, restaurant.
Admission: The course is self-contained. Subjects useful at undergraduate level: linear algebra, thermodynamics, heat transfer, computer programming (MATLAB / Octave or Python).
Literature:

All teaching materials are provided as PDF (bibliography, supporting materials and slides for lectures and tutorials).

 

Bibliography

G. Strang (2007). Computational Science and Engineering, Wellesley-Cambridge Press, ISBN-10 0-9614088-1-2

 

ASHRAE Fundamentals, chapters F01 Psychrometrics, F07. Fundamentals of controls, F09 Thermal Comfort, F16 Ventilation and Infiltration, F17 and F18 Heating and Cooling Loads

 

C. Ghiaus (2014). Linear algebra solution to psychometric analysis of air-conditioning systems, Energy vol. 74, pp. 555-566

 

C. Ghiaus (2022) Computational psychrometric analysis as a control problem: case of cooling and dehumidification systems, International Journal of Building Performance Simulation, 15(1), pp. 21-38,

https://doi.org/10.1080/19401493.2021.1995498

C. Ghiaus. (2021). PsychroAn_cool: Psychrometric analysis of cooling systems as a control problem. In Journal of Building Performance Simulation (0.0.0, Vol. 15, Number 1, pp. 21–38). Zenodo. https://doi.org/10.5281/zenodo.5236450

 

C. Ghiaus (2022). Computational psychrometric analysis of HVAC systems: tutorials, https://github.com/cghiaus/PsychroAn_tuto


Conditions:

Required (undergraduate level): linear algebra, calculus, thermodynamics, heat transfer, computer programming (MATLAB / Octave or Python).

Desirable (but not compulsory): dynamic systems, control engineering


Every student needs to have a laptop during the course.

 

Before the beginning of the course, students need to have Python (Anaconda distribution is recommended) on their laptops.

Contact:

Prof. Dr.-Ing. Frank Tillenkamp: till@zhaw.ch

 
Contact Person E-Mail: till@zhaw.ch
Status: registration open
 
Specialization: Energy and Environment (EE)

Industrial Technologies (InT)

Information and Communication Technologies (ICT)

Building Technologies (BT)

Computer Science (CS)

Energy & Environment (EnEn)

Mechanical Engineering (ME)

Mechatronics & Automation (MA)

 

[Responsible for this text: Tillenkamp Frank]