Soil inertia and shallow basement envelope impact on cellar internal temperature

Naima Sakami, Hassan Hamdi, Lahcen Boukhattem

Abstract


This work deals with a three dimensional numerical study of heat transfer by conduction between the soil and the shallow basement in the city of Marrakech (Morocco). The heat transfer equation is solved by the finite difference method using the implicit alternative direction (ADI). The internal temperature of the cellar is computed by using energy balance equation in the cellar. The objective of this work is to evaluate the effects of the nature of the soil, the nature of the walls, the thickness of the walls of the cellar and the distance L far from the cellar on the internal temperature and the heat exchanged between the soil and the shallow basement

Keywords


ADI Scheme; Internal temperature; Nature of soil; Basement; Heat flow

Full Text:

PDF

References


D. Chen, “Dynamic Three-dimensional heat transfer calculation for uninsulated slab-on-ground constructions“, Energy and Buildings, No 60, pp. 420–428, 2013.

A.E. Delsante, A.N. Stokes, and P.J. Walsh, “Application of Fourier transforms to periodic heat flow into the ground under a building“, International Journal of Heat Mass Transfer, Vol. 26, No.1, pp.121–132, 1983.

S. Choi, M. Krarti, “Thermally optimal insulation distribution for underground structures“, Energy and buildings, No.32, pp. 251-265, 2000.

W.P. Bahnfleth, “A three-dimensional numerical study of slab-on-grade heat transfer“, ASHRAE Transactions, No. 96, pp. 61–72, 1990.

M.P. Deru, “Ground-Coupled Heat and Moisture Transfer from Buildings“, National Renewable Energy Laboratory. NREL/CP-550-29694, February 2001.

M. Staniec and H. Nowak, “Analysis of the energy performance of earth-sheltered houses with southern elevation exposed“, Eleventh International IBPSA Conference Glasgow, Scotland July 27-30, 2009.

A. Abdelbaki, “Contribution à la modélisation des transferts thermiques à travers le plancher d’un habitat sur terre-plein“, DES thesis, Faculty of Sciences Semlalia, Marrakech, Morocco, 1993.

A. Abdelbaki, S. Amjad, and Z. Zrikem, “Prediction of heat transfer from shallow basements to the soil by the two-dimensional transfer functions method“, in: Proceedings of the 3rd Renewable Energy Congress, Reading, UK, 1994.

S. Amjad, “Contribution à l’étude du comportement thermique des bâtiments semi-enterrés“, DES thesis, Faculty of Sciences Semlalia, Marrakech, Morocco, 1997.

S. Amjad, A. Abdelbaki, and Z. Zrikem, “Adaptation de la méthode des fonctions de transfert à une cavité enterrée“, in: Proceedings of the 3rd Mechanical Congress, Tétouan, Morocco, pp. 497–502,1997.

L. Boukhattem, A. Bendou, R. Mir, and M. Kourchi, “Simulation et optimisation des transferts de chaleur entre un bâtiment complètement enterré et le sol“, Revue Internationale d'Héliotechnique, Energie – Environnement, No 36, pp. 27-35, 2007.

L. Boukhattem, A. Bendou, H. Hamdi, and D.R. Rousse, “Simulation bidimensionnelle du transfert d’énergie entre un bâtiment semi-enterré et le sol en régime variable“, Revue internationale d'héliotechnique, No 44, pp. 23-29,2012.




DOI: http://dx.doi.org/10.21622/resd.2016.02.1.030

Refbacks

  • There are currently no refbacks.


Copyright (c) 2016 Naima Sakami, Hassan Hamdi, Lahcen Boukhattem

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.


Renewable Energy and Sustainable Development

E-ISSN: 2356-8569

P-ISSN: 2356-8518

 

Published by:

Academy Publishing Center (APC)

Arab Academy for Science, Technology and Maritime Transport (AASTMT)

Alexandria, Egypt

resd@aast.edu