Occupancy measurement in building: A litterature review, application on an energy efficiency research demonstrated building-Reference-Cited by-同舟云学术

Occupancy measurement in building: A litterature review, application on an energy efficiency research demonstrated building

Published:2013 Issue:2 Volume:4 Page:135-144
ISSN:2107-6839
Container-title:International Journal of Metrology and Quality Engineering
language:
Short-container-title:Int. J. Metrol. Qual. Eng.

Author:

Caucheteux A.,Es Sabar A.,Boucher V.

Abstract

Measuring the energy efficiency of buildings and its confrontation with the current Building Energy Simulations now faces knowledge of what is commonly called “occupancy”. This work has been made in order to implement a monitoring system on a research demonstrator building at DLRCA in Angers (France). The goals were first to know the occupancy as input data of models but also to build occupancy models. Occupancy can be defined as all the action of occupants that affect building energy efficiency. The chosen monitoring deals with its presence, lightning, windows opening and internal gains. It seems that the use of an Infra- red detector allows a accuracy of 5 min in the detection of presence. The use of dry contact sensors allows the detection of five different rates of slide windows opening that can affect temperature decrease. Light sensors seem to be efficient to detect artificial lighting states when correctly configured.

Publisher

EDP Sciences

Subject

Safety, Risk, Reliability and Quality

Link

http://www.metrology-journal.org/10.1051/ijmqe/2013044/pdf

Reference38 articles.

1. C.M. Clevenger, J. Haymaker, The impact of the building occupant on energy modeling simulations, in Joint International Conference on Computing and Decision Making in Civil and Building Engineering, Montreal, Canada, 2006, pp. 3637–3646

2. A. Mahdavi, C. Proglhof, User behavior and energy performance in buildings, Internationalen Energiewirtschaftagung an der TU Wien, IEWT (2009)

3. User behavior in whole building simulation

4. W. Parys, D. Saelens, H. Hens, Implementing realistic occupant behavior in building energy simulations – the effect on the results of an optimization of office buildings, in Proceedings of the 10th REHVA World Congress Sustainable Energy use in Buildings, Antalya, 2010, pp. 1−8

5. D. Bourgeois, J. Hand, I. Mcdonald, C. Reinhart, Adding sub-hourly occupancy prediction, occupancy-sensing control and manual environmental control to ESP-r, in Proceeding of Esim 2004, Vancouver, BC, 2004, pp. 119–126

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