Simulation and Analysis of a Solar Cooling System-Reference-Cited by-同舟云学术

Simulation and Analysis of a Solar Cooling System

Published:2023-12-01 Issue:2 Volume:13 Page:243-252
ISSN:2284-7197
Container-title:Journal of Applied Engineering Sciences
language:en
Short-container-title:

Author:

Maouel Hafidha¹,Mohammedi K.²

Affiliation:

1. 1 University Mouloud Mammeri Tizi Ouzou, Faculty of Construction Engineering , Department of Mechanical Engineering , Tizi Ouzou , Algeria

2. 2 Laboratory of Mechanical Energetics and Engineering , University M’Hamed Bouguerra Boumerdes , Algeria

Abstract

Abstract The present paper focuses on a study model of a trithermal absorption machine, operating at H2O/LiBr couple, powered by a planar solar collector. Therefore, the mathematical model is based on the principles and laws of thermodynamics as well as the heat and mass transfer equations, expressed for the refrigeration cycle. In fact, the results of the complete numerical simulation of the machine, developed within the framework of this study, allow predicting the performances of this type of installation according to the various parameters as well as the operating temperatures and the flow rate in the absorber.

Publisher

Walter de Gruyter GmbH

Subject

General Environmental Science

Link

https://www.sciendo.com/pdf/10.2478/jaes-2023-0031

Reference15 articles.

1. Aebischer, B., Jakob, M, Henderson, G., Catenazzi, G., 2007. Impact of climate change on thermal comfort, heating and cooling energy demand in Europe. Proceedings eceee 2007 Summer Study, Saving Energy, 4–9 June 2007, France. ISBN : 978-91-633-0899-4,

2. Aniès., 2011. Modélisation, simulation dynamique, validation expérimentale et optimisation énergétique d’une unité de Rafraîchissement solaire par absorption, thèse de doctorat de l’université de Pau et des Pays de l’Adour, la Réunion (Modeling, dynamic simulation, experimental validation and energy optimization of a unit of solar cooling by absorption, doctoral thesis from the University of Pau and Pays de l’Adour, France.

3. Castaing-lasvignottes, J., MARC, O., Franquet, E., Gibout, S., 2008. Modélisation et simulation dynamique d’une machine frigorifique a absorption H2O/LiBr : application solaire. Colloque COFRET’08, 11 – 13 juin 2008 (Modeling and dynamic simulation of a H2O/LiBr absorption refrigeration machine: solar application. COFRET’08 Symposium, Nantes – France.

4. Colbourne, D., 2018. Normes internationales de sécurité – climatisation, réfrigération et pompes à chaleur (Air conditioning : what the new fluids change in the installation rules), https://www.lemoniteur.fr/article/climatisation-ce-que-lesnouveaux-fluides.,Changent-aux-regles-dinstallation.2011824. (Consulté en novembre 2018).

5. Grignon-Masse,L., 2010. Développement d’une méthodologie d’analyse coût-bénéfice en vue d’évaluer le potentiel de réduction des impacts environnementaux liés au confort d’été : cas des climatiseurs individuels fixes en France métropolitaine (Development of a cost-benefit analysis methodology to assess the potential for reducing environmental impacts related to summer comfort: case of fixed individual air conditioners in metropolitan France), thèse soutenue le 20 mai 2010 à l’école des Mines de Paris.