.BuildSysPro.Building.Zones.HeatTransfer.ZoneCrawlSpaceGlazed

Information

Model of parallelepiped glazed zone on crawl space, in pure thermal modelling

Hypothesis and equations

Parallelepiped single-zone building on crawl space with glazing model, to be connected to a boundary conditions model (left thermal port) and a left realOutput for solar fluxes. By default walls are oriented in the four cardinal points; the orientation modification is represented by the parameter beta. The right thermal port is connected to the inner volume (heat capacity). Floor and ceiling are subject to outside temperatures which are weighted by a coefficient b.

This model inherits from ZoneCrawlSpace and superimposes on it glazings.

Bibliography

none

Instructions for use

This single zone building model is to be connected to a weather boundary conditions model on the left (outside temperature, sunlight-related data). The right thermal port is connected to the inner volume (heat capacity) and can, if desired, be connected to any model using a thermal port (internal heat gains...).

The walls parameterization is done via the parameter caracParoi, however it still can be done layer by layer without creating any type of wall.

1. Click on the small arrow of caracParoi + Edit
2. Fill in the fields on the number of layers, their thickness, the mesh. The parameter positionIsolant is optional
3. For the mat parameter, click on the small arrow + Edit array, match the number of boxes in a column to the number of materials layer in the window that is displayed, then, in each box, right-click + Insert function call and browse the library to specify the path of the desired material (in Utilities.Data.Solids)

Known limits / Use precautions

To consider walls radiation in long wavelength (LWR), exchange coefficients h must be global exchange coefficients.

Glazings transmit solar fluxes to the floor.

Validations

Validated model - Ludovic Darnaud 07/2010

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Licensed by EDF under a 3-clause BSD-license
Copyright © EDF 2009 - 2023
BuildSysPro version 3.6.0
Author : Ludovic DARNAUD, EDF (2010)
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Revisions

Gilles Plessis 02/2011: Changement du modèle de coefficient B pour vérifier la conservation d'énergie + Ajout d'une liste déroulante pour le choix des matériaux via l'annotation annotation(choicesAllMatching=true)

Aurélie Kaemmerlen 03/2011 : Remplacement des modèles de ParoiEclairee et FenetreSimple par ParoiRad et FenetreRad avec externalisation du calcul des flux solaires incidents + Modèle mis en extends du cas sans vitres (ZoneVideSanitaire)

Gilles Plessis 06/2012 :

• Intégration du changement de paramétrage des parois. Voir les révisions apportées au modèle de parois
• Protection de composants pour éviter le grand nombre de variables dans la fenêtre des résultats.