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Travail de fin d'études et stage[BR]- Travail de fin d'études : Modelling of desiccant evaporative cooling system[BR]- Stage d'insertion professionnelle (ULiège)

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Rulot, Thibault ULiège
Promotor(s) : Lemort, Vincent ULiège
Date of defense : 27-Jan-2023 • Permalink : http://hdl.handle.net/2268.2/16768
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Title : Travail de fin d'études et stage[BR]- Travail de fin d'études : Modelling of desiccant evaporative cooling system[BR]- Stage d'insertion professionnelle (ULiège)
Translated title : [fr] Modélisation du système de refroidissement adiabatique par roue dessicante
Author : Rulot, Thibault ULiège
Date of defense  : 27-Jan-2023
Advisor(s) : Lemort, Vincent ULiège
Committee's member(s) : Gendebien, Samuel ULiège
Léonard, Grégoire ULiège
Language : English
Number of pages : 51
Keywords : [en] Evaporative cooling
[en] Desiccant wheel
[en] Modelling
Discipline(s) : Engineering, computing & technology > Energy
Institution(s) : Université de Liège, Liège, Belgique
Degree: Master en ingénieur civil électromécanicien, à finalité spécialisée en énergétique
Faculty: Master thesis of the Faculté des Sciences appliquées

Abstract

[en] In a context of climate changes around the world and a willingness to achieve the goal fixed, the 2015
Paris Agreement, decarbonized strategies must be established. With this climate change, an increase
in cooling consumption of buildings can be expected. The current solution to achieve thermal com-
fort in buildings is to install air conditioning units to produce fresh air to cool the buildings. These
conventional air-conditioning systems consume a relatively large amount of electricity to produce this
cold, but also use refrigerants that contribute to the greenhouse effect and the destruction of the ozone
layer. However, there are alternatives to conventional air conditioning, including evaporative cooling
systems with a desiccant wheel.
The aim of this study is to evaluate different evaporative cooling techniques, including a review
of the different possible designs and configurations. A modelling of the whole cycle for a standard
configuration is performed. The modelling of each component of the cycle is addressed, a simple model
for each component and a complex model for the desiccant wheel and the rotary air-air exchanger.
A parametric study for each model is carried out in order to observe the impact of the evolution of
the parameters on the outputs of each model. A calibration of the simple models for the desiccant
wheel and the rotary air-air exchanger is carried out from data generated with the complex model as
well as a validation in order to evaluate the relevance of a simple model next to a complex model.
For the desiccant wheel, the simple model can substitute the complex model because the error on the
desiccant wheel output is ±0.5[K] and ±0.3[g_water/kg_air]. For the rotary exchanger, the simple model
does not allow to substitute the complex model, other elements like the flow rate must be taken into
account in the efficiency calculation.
This type of technology can be applied especially in hot and humid climates as it allows the
regulation of both temperature and humidity to ensure optimal thermal comfort. Even more so by
improving the way in which the regeneration temperature of the desiccant wheel is reached as well as
by installing solar collectors in order to make the system almost autonomous in energy.


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Author

  • Rulot, Thibault ULiège Université de Liège > Master ing. civil électro., à fin.

Promotor(s)

Committee's member(s)

  • Gendebien, Samuel ULiège Université de Liège - ULiège > Département d'aérospatiale et mécanique > Département d'aérospatiale et mécanique
    ORBi View his publications on ORBi
  • Léonard, Grégoire ULiège Université de Liège - ULiège > Department of Chemical Engineering > Intensif.des procéd. de l'indust.chim.basée sur l'anal.syst.
    ORBi View his publications on ORBi
  • Total number of views 60
  • Total number of downloads 115










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